research papers
The hydrocarbon-bearing clathrasil chibaite and its host–guest structure at low temperature
aInstitut für Mineralogie und Kristallographie, Universität Wien, Althanstrasse 14, Wien A-1090, Austria, bGeochemical Research Center, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan, and cNational Museum of Nature and Science, 4-1-1 Amakubo, Tsukuba, Ibaraki 305-0005, Japan
*Correspondence e-mail: katharina.sarah.scheidl@univie.ac.at
The natural sII-type clathrasil chibaite [chemical formula SiO2·(M12,M16), where Mx denotes a guest molecule] was investigated using single-crystal X-ray diffraction and Raman spectroscopy in the temperature range from 273 to 83 K. The O atoms of the structure at room temperature, which globally conforms to [V = 7348.9 (17) Å3, a = 19.4420 (15) Å], have anomalous anisotropic displacement parameters indicating a static or dynamic disorder. With decreasing temperature, the shows a continuous symmetry-lowering transformation accompanied by The intensities of weak reflections increase as temperature decreases. A monoclinic twinned was derived at 100 K [A2/n, V = 7251.0 (17) Å3, a′ = 23.7054 (2), b′ = 13.6861 (11), c′ = 23.7051 (2) Å, β′ = 109.47°]. The transformation matrix from the cubic to the monoclinic system is ai′ = (½ 1 ½ / ½ 0 −½ / ½ −1 ½). The A2/n host framework has Si—O bond lengths and Si—O—Si angles that are much closer to known values for stable silicate-framework structures compared with the averaged model. As suggested from band splitting observed in the Raman spectra, the [512]-type cages (one crystallographically unique in , four different in A2/n) entrap the hydrocarbon species (CH4, C2H6, C3H8, i-C4H10). The [51264]-type cage was found to be unique in both structure types. It contains the larger hydrocarbon molecules C2H6, C3H8 and i-C4H10.
Keywords: chibaite; clathrasils; hydrocarbons; Raman spectroscopy; X-ray diffraction; low temperature.
1. Introduction
2 as well as the greenhouse gases CO2 and CH4 (Burggraaf et al., 1998; Algieri et al., 2003; Min et al., 2003; Navrotsky et al., 2003; van den Berg et al., 2004, 2005; Hong et al., 2005; House et al., 2006; Di Profio et al., 2007; Dong et al., 2008; Kanezashi et al., 2008; Zheng et al., 2008; Eslamimanesh et al., 2012). The cages have small pore openings and so guest species are trapped inside the thus, diffusion of the atoms and molecules out of the cages is slow in comparison with most microporous zeolite structures (Binder et al., 2013; Hu et al., 2014; Fujiyama et al., 2015; O'Malley et al., 2016). Clathrate frameworks consisting of only SiO2 are referred to as clathrasils. They exhibit structural analogs to H2O-ice phases which are also observed for several other SiO2 phases (Kamb, 1965). The three clathrasils found in nature to date, melanophlogite (MEP-framework topology) (Gies, 1983; Nakagawa et al., 2001), chibaite (MTN-framework topology known from the zeolites ZSM-39, CF-3, dodecasil-3C and holdstite) (Baerlocher et al., 2007; Momma et al., 2011) and bosoite (DOH-framework) (Momma et al., 2011, 2014), were proven to be isostructural with the gas–hydrate structure types sI, sII and sH. Clathrasils are found in marine sediments related to low-temperature hydrothermal processes of convergent plate boundaries (Momma et al., 2011; Momma, 2014; Likhacheva et al., 2016).
are inclusion compounds which are built up from topologically sub-nanoporous host frameworks that entrap guest atoms and molecules of suitable size into cage-like voids. Various have gained interest because of their application as potential materials for gas storage and gas separation of HFollowing the structural description reported (Brooks et al., 1984; Lu et al., 2007; Momma et al., 2011), the sII-type representative chibaite studied here is built up from a three-dimensional framework of corner-sharing [SiO4] tetrahedra forming two different cage types, the smaller pentagon-dodecahedra [512]-cages and the larger hexadecahedra [51264]-cages (superscripts indicate the number of pentagonal and hexagonal faces of the cage). The cages are reported to incorporate the guest molecules N2, CO2 and small hydrocarbons including methane (CH4), ethane (C2H6), propane (C3H8) and isobutane (i-C4H10) (Momma et al., 2011; Likhacheva et al., 2016). Only hydrogen bonds and weak van der Waals interactions act between the guest molecules and the framework. These molecules presumably serve as templates during the crystallization of the clathrasil host structures in order to stabilize the sub-nanoporous framework that is known for gas hydrates (Gies et al., 1982; Navrotsky et al., 2003). Analogous to gas hydrates, the occurrence of the smaller hydrocarbons CH4 and C2H6 promotes the crystallization of sI structures, and the addition of the larger hydrocarbons C3H8 and i-C4H10 promotes the crystallization of sII and sH structures (Davidson et al., 1986; Kvenvolden, 1995; Lu et al., 2007).
The ideal formula of the apparent cubic chibaite is SiO2·(M12,M16), with Mx being the guest molecule in the corresponding x-faced polyhedral cage. The highest possible space-group symmetry of the sII framework (MTN-framework topology) is (Könnecke et al., 1992). However, the true symmetry appears to depend on temperature (Gies, 1983; Könnecke & Fuess, 1995), pressure (Tribaudino et al., 2010) and the type of guest species as well as its orientation (Momma et al., 2013; Momma, 2014). Various low-symmetry structures of dodecasil-3C, the synthetic analog of chibaite, correspond in an inconsistent fashion to subgroups of the ideal framework (Gies, 1984; Chae et al. 1991; Könnecke et al., 1992; Könnecke & Fuess, 1995; Knorr & Depmeier, 1997). Moreover, several studies describe a temperature-induced of dodecasil-3C (Gies, 1984; Ripmeester et al., 1988; Tse et al., 1993; Könnecke & Fuess, 1995). The displacive distortions are presumably induced by the distribution and ordering of the entrapped guest molecules.
The aim of this study was to investigate the crystallography of chibaite single crystals from a new locality in Nagano Prefecture, Japan. A detailed study focused on formation and chemical characterization is in progress. By applying low-temperature conditions in the range from 293 to 83 K, the structural evolution of this complex host–guest clathrasil structure is described.
2. Materials and methods
The studies were performed on two small (111)-oriented double-sided polished crystal platelets (each of about 80 × 50 × 40 µm in size) prepared from a natural chibaite crystal. The specimens were carefully inspected with regard to crystal quality, optical
and crystal impurities using the highest magnification (120×) of a stereomicroscope at room temperature (RT). No domains or related microstructures nor inclusions nor birefringence were observed under polarized light.Raman spectroscopy was performed using a Jobin–Yvon Horiba LabRam HR800 instrument equipped with a CCD detector, operated in confocal mode. The measurements were carried out using a 50× long-working-distance objective and setting a grating with 1800 grooves mm−1. The spectral resolution was calibrated with the Rayleigh line of the laser resulting in a resolution better than 0.5 cm−1. The sample was excited with a 532 nm laser, providing about 34 mW on the sample surface. Spectra were collected at RT as well as at low temperatures (LT) down to 83 K. LT measurements were performed using a Linkam FTIR 600 liquid nitrogen cooling stage, which enabled temperature (T) control with an accuracy better than ±2 K. Raman spectra were collected in the frequency range from 60 to 3600 cm−1 with 60 s counting time and two accumulations. In order to evaluate band positions and full widths at half maxima (FWHM), the recorded bands were fitted with the program PeakFit (Systat Software, 2007) after subtracting the background by assuming Lorentzian–Gaussian band shapes and applying the Gauss–Lorentz area method.
Afterwards, a platelet from the same crystal used for the Raman measurements was selected and mounted on a glass fiber for single-crystal X-ray diffraction (sXRD) investigations. Precise unit-cell parameters at RT were determined from the peak profiles of strong sXRD Bragg reflections. These were measured using the eight-position centering technique with a Huber 5042 four-circle diffractometer (non-monochromated Mo radiation, conventional sealed tube source). The setting angles of 22 non-equivalent reflections in the 2θ range from 7 to 30° were determined by applying the peak-fitting algorithm implemented in the SINGLE software (Angel & Finger, 2011).
Both sXRD intensity data sets and unit-cell parameters under LT conditions were measured using a StoeStadiVari diffractometer, equipped with a Dectris Pilatus 300K pixel detector and operated with monochromated Mo Kα radiation from a 100 W air-cooled Incoatec IμS micro-focus X-ray tube (50 kV, 1 mA). The temperatures 293, 273, 250, 200, 150 and 100 K were maintained using the flowing N2 gas cooling device from Oxford Cryosystems Ltd, which is stable within ±0.1 K. ω scans at different χ and φ positions with a scan width of 0.5° were used to optimize the coverage of the full sphere of the A detector-to-crystal distance of 60 mm was set for all measurements. Data processing (indexing, integration, correction) was performed using the X-AREA software (Stoe & Cie, 2002). Owing to the low of the sample material (μ = 6.24 cm−1), only a multi-scan absorption correction by means of frame scaling was applied. Details of the instrumental settings for individual intensity data collections and information on the data processing are summarized in Table 1. Structure refinements were performed using the program SHELXL97 (Sheldrick, 2008, 2015) and the OLEX2 software (Dolomanov et al., 2009) after data reduction with the X-AREA software (Stoe & Cie, 2002). Neutral atomic scattering factors were taken from the International Tables for X-ray Crystallography (Maslen et al., 2004). The linear coefficient fitted to the series of unit-cell-volume data points followed the Kroll formalisms (Kroll et al., 2012) implemented in the software EoSFit7 (Angel et al., 2014).
‡R1 = (∣∣Fo∣-∣Fc∣∣)/Fo. §wR2 = [w(Fo2−Fc2)2/∣wFo4]1/2. ¶GooF = {[w(Fo2−Fc2)2]/(n−p)}0.5. |
3. Results
3.1. Guest molecules and their distribution
Raman spectroscopy has proven to be a convenient method for the characterization of guest molecules in clathrate phases. It not only allows for the identification of the molecular guest species (Yagi et al., 2007; Tribaudino et al., 2008; Bourry et al., 2009), but also their assignment to distinct cage types (Sum et al., 1997; Subramanian & Sloan, 2002; Hirai et al., 2010; Momma et al., 2011). Moreover, minor changes in the local environment that can be attributed to distinct temperature and pressure conditions are recognizable (Shimizu, 2003; Machida et al., 2006; Gatta et al., 2014; Likhacheva et al., 2016). Fig. 1 shows the Raman spectrum of chibaite at RT. The positions of the Raman bands belonging to the guest molecules are listed in Table 2. Fig. 2 shows the series of Raman spectra at LT. Fig. 3 displays the variation of the band positions assigned to the hydrocarbons as a function of T.
The recorded Raman spectra contain three spectral ranges of particular interest: (i) the SiO2-framework vibrations between 60 and 700 cm−1, (ii) the C—C stretching vibrations between 700 and 1100 cm−1, and (iii) the C—H stretching vibrations between 2800 and 3100 cm−1 (Fig. 1). The analysis of the spectral range assigned to the framework vibrations has not yet been discussed in any previous studies. The spectral ranges of the C—C and C—H stretching vibrations were not only used to identify hydrocarbon guest molecules in gas hydrates and clathrasils, but also to allocate them to distinct cages within the host framework. In accordance with Kolesov & Geiger (2004), the positions of the Raman bands assigned to the distinct guest molecules are shifted to lower Raman shifts relative to the bands assigned to the same molecules in the gas phase because of the interaction between the molecules and the framework. The different sizes of the two cages influence the vibration of the molecules to a different degree. The interactions between the framework and molecules are stronger within the small [512] cages, causing band positions with higher Raman shifts with respect to those in the larger [51264] cages. Consequently, if the molecules are distributed in both cage types, the Raman bands are split (Subramanian & Sloan, 2002).
The Raman bands of this study were assigned to methane (CH4) (Sum et al., 1997), ethane (C2H6) (Klapp et al., 2010), propane (C3H8) (Sum et al., 1997), isobutane (i-C4H10) (Klapp et al., 2010), CO2 (Charlou et al., 2004) and N2 (Tribaudino et al., 2008) (Table 2, Fig. 1). The C—H stretching vibration ν1 of CH4 shows only one single band at 2907.5 (5) cm−1 as a result of the molecule being exclusively entrapped in the [512] cages (Momma et al., 2011; Likhacheva et al., 2016). The band at 3049.8 (5) cm−1 is assigned to the overtone of the C—H asymmetric bending vibration belonging to the CH4 molecule (2ν2) (Momma et al., 2011). Unfortunately, it was not possible to assign the residual C—H stretching vibrations to the larger hydrocarbons because of their complex spectra and extensive overlapping. The bands assigned to the C—H vibration of CH4 are not split, whereas the bands belonging to the C—C stretching vibrations of C2H6, C3H8 and i-C4H10 are split into two components, indicating that the three larger hydrocarbons are located in both cage types.
The relative distribution of the guest molecules was estimated according to the ratios of the integrated intensities of the Raman bands. The intensities of the bands assigned to the molecules located in the smaller [512] cages are always higher than those belonging to the molecules located in the larger [51264] cages. The intensity ratios of the [512] cage to the [51264] cage are: ∼6.6:1 for C2H6, ∼6:1 for C3H8 and ∼2:1 for i-C4H10. In the sII-type framework, the number of [512] cages relative to [51264] cages is 2:1. Thus, the intensity ratio suggests that C2H6 and C3H8 occupy the small cages about three times more often than the large cages; in contrast, the larger hydrocarbon i-C4H10 seems to be distributed equally between the two different cage types.
The Raman bands at 1271.9 (5) and 1380.0 (5) cm−1 are assigned to the Fermi dyads (νc−) and (νc+) of the CO2 vibrations, and the band at 2322.3 (5) cm−1 to N2 (Tribaudino et al., 2008). No splitting was observed for either species.
3.2. Evolution of the Raman spectra under LT conditions
Figs. 2 and 3 show the changes of the Raman spectra with T from 293 to 83 K. At RT, the SiO2-framework vibrations yield three broad but prominent bands located at ∼155, ∼230 and ∼360 cm−1, and two small bands at ∼310 and ∼430 cm−1. As T decreases, these bands sharpen and evolve into several split components and shoulders of smaller FWHMs, indicating a lowering of the symmetry. The spectral evolution with decreasing T does not reveal any obvious discontinuity indicative of a distinct and spontaneously occurring Results indicate a continuous distortion of the host framework which becomes stronger as T decreases. The occurrence of birefringence and the formation of crystallographic domains on a microscopic scale at T ≤ 123 K are a further proof for the lowering of symmetry at LT.
The Raman shifts and intensities of the Raman bands assigned to the guest molecules decrease with increasing T (Figs. 2 and 3) as a result of the damped resonance amplitude and reduced vibration energy of the molecules. The redshifts of the bands assigned to the C—C vibrations vary with the presence of different hydrocarbons (C2H6, C3H8 and i-C4H10) and cage types (Fig. 3). The CH4 molecules, which are located exclusively in the [512] cages, reveal a small but near-linear shift. This is caused by a minor change in the interaction between the framework and the molecule in the center of the cage. Therefore, the relative slope of the Raman shift of CH4 from 293 to 83 K is almost negligible compared with the spectral changes of the other hydrocarbon molecules. Owing to the smaller kinetic diameter of C2H6 compared with i-C4H10 and C3H8, the influence of the interaction with the surrounding SiO2-framework is much less significant and leads to a gentler slope. The change of the Raman shifts of C2H6 and i-C4H10 with T is more prominent for the molecules located in the [51264] cage compared with those located in the [512] cage, which differs from what can be observed for C3H8.
3.3. Lattice metrics and space-group symmetry
The optical properties of the crystals under crossed polarizers suggest a cubic symmetry, which is supported by the measurements performed using the high-resolution Huber diffractometer resulting in cubic lattice metrics. The parameters and their estimated standard deviations (ESDs) obtained from the symmetry-unconstrained triclinic a = 19.442 (2), b = 19.445 (2), c = 19.443 (2) Å, α = 90.013 (9), β = 90.010 (11), γ = 90.006 (11)° and V = 7350.4(1.4) Å3. The values of all unit-cell axes are equivalent within their ESDs and the deviation of the angles from the ideal 90° is less than 1.5σ, i.e. <0.013°. The constrained to cubic symmetry finally yielded: a = 19.4447 (10) Å and V = 7351.9(1.2) Å3. The LT data collected on the StadiVari system were also carefully evaluated with respect to a potentially lower symmetry. However, no significant deviation from the cubic cell metric is observed at any T measured down to 100 K (Table 1). The unit-cell volume steadily decreases without any detectable discontinuity. There is no evidence for a discrete or any sudden structural transformation associated with a change in the cell volume. The corresponding linear expansion coefficient determined by linear regression on the unit-cell volumes yields α = 7.8 (2) × 10−6 K−1.
at RT are:First, all diffraction patterns were indexed based on the cubic unit-cell axes according to these findings. The ; Könnecke et al., 1992). Although the reliability factors of the RT structure of an analogous holohedral cubic model with 46 variable parameters provided quite reasonable results (R = 0.055, wR = 0.133, GooF = 1.11), the respective factors progressively increase with decreasing T (Table 1). When comparing the corresponding of the individual data sets, it appears that the d-glide plane is consistently violated at LT. The intensities of systematically forbidden reflections become stronger and their numbers increase continuously from 0 at RT to 585 reflections at 100 K (Table 1). The reflection statistics of the data reduction, as well as a careful inspection of the do not indicate any violation of the F centering. However, the averaging of symmetry-equivalent reflections based on cubic Laue symmetry yields unusually high values of Rint, again increasing steadily from Rint = 0.096 at RT to 0.33 at 100 K.
of the measurements at RT are consistent with the extinction group , which is in accordance with earlier structure refinements of dodecasil-3C in the space groups and (Gies, 1984Reconstructed diffraction patterns of the ). The reflections occur in all three main directions along a*, b* and c* with respect to the cubic 19.4 Å basis vectors, i.e. in the corresponding , and sections with n′ = 2n + 1. Sections parallel to hk0 in a sequence along c* reveal the monoclinic Laue symmetry 2/m. This seems to be most obvious regarding the subset of weak intensities in the layers where l = 2n + 1 (Fig. 4). The orientation of the unique monoclinic mirror plane matches the reciprocal hhl lattice-plane direction. At the same time, integral as well as zonal within the reciprocal-space planes parallel to hhl suggest a base-centered monoclinic and the existence of a glide plane (Fig. 4). Together with the according to
reveal weak reflections, which show increasing intensity with decreasing T (Fig. 4of the monoclinic setting, the arrangement of the A2/n (i.e. non-standard setting of C2/c, which requires β = 125.26°). Consequently, the transformation matrix from the cubic to the monoclinic A12/n1 setting is
suggests the space-group symmetrywith a′ = c′ = acub/2 × 21/2 × 31/2 = 23.7051 Å, b′ = acub/2 × 21/2 = 13.6861 Å and β′ = 2arctan 21/2 = 109.47° (Figs. 5 and 6). The unit-cell volume of the monoclinic A-centered cell is equivalent to that of the cubic F-centered cell.
| Figure 6 ( |
3.4. The A2/n structure model at 100 K
The data set collected up to sinθ/λ = 0.771 Å−1 at 100 K [i.e. 93896 individual reflections, merged to a set of 7878 unique data with Fo > 4σ(Fo) classified as observed] yields an acceptable value of Rint = 0.138 for the Laue symmetry 2/m. After several cycles of the 52 framework-atom positions, a total of 16 extra-framework positions were extracted from the difference Fourier summation. The anisotropic displacement parameters (ADPs) Uij for all framework atoms were refined. The of, in total, 533 parameters, including the twin fraction with the above-mentioned converged to an R1 value of 0.120 with a final residual electron density of ±2.2 e Å−3 (Table 1). The values of the refined atomic parameters of the twinned A2/n model are listed in Table S1 of the supporting information. A summary of the ranges of the bond distances and the bond angles between framework atoms is provided in Table 3.
|
During symmetry lowering to A2/n, the develops four crystallographically independent pentagon-dodecahedral [512] cages (Fig. 7); however, for the larger hexadecahedra [51264] cages, a single type is maintained. The C1 positions are assigned to the four [512] cages (labeled C1a to C1d), and a total of 12 C2 positions are located inside the [51264] cage (labeled C2a to C2l) (Fig. 8). The four C1 sites correspond to the four individual [512] cage centers, each located either on an inversion center or on a twofold axis. First, their site occupancy factors (SOFs) were released in the while the Uiso values were fixed to 0.05 Å2. As the SOFs converged to 1.0 within their ESDs, the procedure was changed: the SOFs of the four C1 atoms were kept fixed and their ADPs were allowed to vary. The position of the C1 atoms likely represents the barycenter of the molecules CH4, C3H8, i-C4H10 and CO2. The interatomic distances of these C1 centers to the framework O atoms is ≥3.57 Å. As a result of the low and rather diffuse residual electron density in the immediate vicinity of the C1 centers, it is not possible to localize further distinct positions inside the [512] cages. The molecules might be statistically distributed without any coherent preferred alignment across the crystal. The SOFs of the 12 assigned C2 positions inside the [51264] cage vary between ∼19% and ∼43% (Table S1), and their Uiso values were again fixed to 0.05 Å2. All C2 sites are within a spherically shaped area located between 1.24 and 2.30 Å off the virtual center of the [51264] cage (i.e. at x = 0.32, y = 0, z = 0.43) corresponding to distances ≥3.11 Å from the framework O atoms (Fig. 8). As a result of the partial site occupation, the ESDs of the positional parameters are high and thus a reliable assignment to individual molecules is not possible from the obtained data. Fig. 8 provides a presentation of all possible C—C bonds in the range between 1.4 and 1.6 Å, which might be considered for the assignment of distinct hydrocarbon species. Difference Fourier summations of the LT data show high residual electron densities close to the O atoms monitoring displacive dislocation and unconsidered twin components.
3.5. The RT model with Fdm and the LT structure evolution
The et al. (1992). The of the framework atoms with ADPs of all atoms converged at R1 = 0.083 and wR2 = 0.252. Residual electron densities up to 4.62 e Å−3 were located within the [512] cages and up to 1.37 e Å−3 within the [51264] cages, with a distribution similar to that found in melanophlogite (Tribaudino et al., 2008) and in the monoclinic LT structure. The C atoms were allocated to the centers of the residual electron densities. For their the SOFs were released and the Uiso values restrained to 0.05 Å2 according to the of the monoclinic structure. The fully occupied C1 atom site was assigned to the center of the [512] cage at x = 0, y = 0, z = 0. The maxima located within the larger [51264] cage centered at 3/8, 3/8, 3/8 were assigned to the five partially occupied C2 atom positions (C2a to C2e, expanded by the space-group symmetry to 44 positions) (Table S1). Again, too many tentative C—C bonds do not allow assignment of individual atoms to distinct hydrocarbon molecules and hence do not provide clear evidence on individual alignments. The final converged at R1 = 0.055 and wR2 = 0.133 for a total of 46 variable parameters including a scale factor and an extinction parameter (Table 1).
of the from the data set collected at RT (293 K) was performed in the , starting from the seven framework-atom positions reported by KönneckeAccording to Momma et al. (2011), Na and Al are considered minor but essential constituents of chibaite. Based on electron-microprobe analyses, the authors gave the for the host structure as Na0.99(Si134.53Al1.63)O272. This results in a moderate excess of cations; charge balance is achieved by Al3+ ions substituting the Si4+ ions. An additional weak maximum of the electron density (0.43 e Å−3) is located at 1/2, 1/2, 1/2, i.e. in the middle of the sixfold silicate rings linking the [51264] cages, which is ascribed to the small number of Na atoms (Fig. 8). A probable consequence of the lower resolution and some positional displacements was that the of an analog position for Na atoms within the 100 K structure model was not possible. In zeolites, Na atoms are likely centered within sixfold silicate rings. The six Na—O1 bond lengths of 2.564 Å satisfy the crystal chemical requirements for charge balance. Moreover, the Si1—O1 bond length was found to be relatively long at 1.578 Å, and the Si1—O1—Si1 bond angle is slightly smaller compared with the two other angles at the bridging O atoms.
The X-ray diffraction images taken at RT exhibit an extremely slight increase in background in the regions where at LT the A2/n symmetry already starts above RT. It is supported by the high and strongly anisotropic disk-shaped displacement parameters observed, especially for the atoms O2 and O4 at RT.
reflections are observed. Even though it was not possible to measure their intensities systematically, they indicate that the change of the structure type from to3.6. The transformation path from Fdm to A2/n
Additional data sets were recorded in a series of different LT conditions, i.e. at 273, 250, 200 and 150 K. Although the data reduction based on cubic Laue symmetry is satisfactory for the measurements at T = 273 K, it yields increasingly strong misalignments with decreasing T as indicated by the increasing Rint values (Table 1). In addition, the intensities of the reflections become successively larger. For the data sets taken at T ≤ 250 K, the in did not converge satisfactorily. The of the C atom with the smallest SOF (C2a) did not converge and was therefore excluded. Likewise, it was not possible to refine the atomic coordinates of the atom C2b found in the 100 K data set. As dodecasil-3C was refined successfully in the by Gies (1984), a similar approach was attempted. However, an analogous of the chibaite structure using the data sets gathered at various T did not improve the results. Könnecke et al. (1992) discussed a model for calcined dodecasil-3C based on symmetry but with split positions for O2 and O3, as well as a release of the constraints of the atom O4. Accordingly, such a model was tested in this study. However, because of the extreme displacement of the O atoms occurring in a disk-shaped fashion, the was not successful. The refinements in A2/n were possible only at T ≤ 250 K, with the reliability of the increasing with decreasing T. At higher T, the reflections became too weak and could not be measured with sufficient significance. Since none of the cubic model variants converged for the measurements in the intermediate T range, and also since the refinements in A2/n did not result in a stable with acceptable uncertainties, we refrain from presenting the results of these refinements. In our opinion, the results reflect that parts of the structure might be at least close to the symmetry and other parts or co-existing domains in the crystal might exhibit the monoclinic A2/n symmetry. Concurrently, the degree of the deviation from cubic symmetry (for domains) appears to be the subject of change.
4. Discussion
The single-crystal investigations of the naturally occurring sII-type hydrocarbon clathrasil, named chibaite, revealed a cubic symmetry at RT in accordance with the topology of the MTN-type framework (as a gas hydrate, it is denoted by the sII structure). The lattice metrics provided no indication of a significant deviation from the cubic geometry. This finding is in agreement with the crystallographic data previously reported for dodecasil-3C, i.e. the synthetic analog of chibaite with an sII-type framework (Gies, 1984). Nevertheless, several symmetry variants for dodecasil-3C were observed under ambient conditions, depending on the type of guest molecules (Gies, 1984; Chae et al. 1991; Könnecke et al., 1992; Könnecke & Fuess, 1995; Knorr & Depmeier, 1997; Momma et al., 2013; Momma, 2014).
During this study, a change in the cubic symmetry of chibaite with decreasing T was detected. Supported by the observed optical anisotropy and the formation of crystallographic domains in single crystals, the evolution of the Raman spectra and X-ray diffraction patterns imply a lowering of symmetry with decreasing T from 293 to 83 K. The measurements reported in this study reveal a significant change in symmetry from cubic to monoclinic. However, it is not possible to assign the structural changes to a distinct critical T as would be expected for distinct phase transitions. Moreover, the observed evolution down to 100 K does not allow for establishing a transition pathway from the cubic A2/n. As a result, a transition from a of order 48 to one of order 4 is caused directly. For further investigations of the transition path from to A2/n, of the measurements of the LT structures with synchrotron radiation would be worthwhile.
structure to the monoclinicThe silicate framework of the RT structure with the A2/n model at 100 K. One remarkable difference is the change in the Si—O bond lengths that were recalculated from the refined atomic coordinates determined by X-ray investigations. For the cubic RT structure, the Si—O values range between 1.536 and 1.583 Å with a mean value 〈Si—O〉 of 1.560 Å. Thus, they are shorter than those observed in the monoclinic LT structure, which range from 1.566 to 1.629 Å with mean 〈Si—O〉 values between 1.581 and 1.602 Å (Table 3a). Furthermore, the bridging Si—O—Si angles are shallower in the cubic modification (169–180°) compared with the Si—O—Si angles of the monoclinic structure (149–177°; Figs. 7 and 8, Table 3a). The Si—O bond lengths and Si—O—Si angles of the cubic modification deviate from the values of stable silicate framework structures. Instead, they show typical values for clathrasil structures, e.g. dodecasil-3C with 〈Si—O〉 = 1.566 Å and 〈Si—O—Si〉 = 174.5° (Gies, 1984), or melanophlogite with 〈Si—O〉 = 1.578 Å and 〈Si—O—Si〉 = 16.3° (Tribaudino et al., 2008). In chibaite, they approach the values for common silicates at 100 K, where the Si—O bond distances average around 1.608 Å (Brown & Gibbs, 1969; Brown et al., 1969; Liebau, 1985) and the Si—O—Si angles around 144° (Tossell & Gibbs, 1978). Brown & Gibbs (1969), Brown et al. (1969) and Tribaudino et al. (2008) reported the relationship between Si—O bond lengths and Si—O—Si angles, concluding that large Si—O—Si angles correlate with small Si—O bond lengths. The short bond distances associated with straight or near-straight bridging angles between SiO4 units of the RT chibaite indicate a high degree of displacement in a static and/or dynamic fashion. In particular, the bridging O atoms show large displacements exhibiting disk-like shapes of their ADPs. In both structures, the Si atom positions exhibit only a moderate mean displacement, whereas the positional shifts of the O atoms are rather pronounced. Their ADPs are large for the LT structure but display even higher values, along with a drastically higher anisotropy, at RT (Table S1). Consequently, the dynamic or even static displacement in the RT framework around the O atom barycenters is larger than in the LT phase. The structural changes are likely to originate from the instability of the cubic host framework at RT. The comparison of both structures is shown in Figs. 7 and 8. The transformation might also be triggered by the ordering and alignment of the guest molecules. Apart from CH4, CO2 and N2, which probably exclusively occupy the smaller [512] cage type, other hydrocarbon molecules (i.e. C2H6, C3H8, i-C4H10) are distributed between both cage types, i.e. [512] and [51264], as derived from the Raman spectra in this study. A limiting factor for the occupation of the cages is their size. In the cubic phase, the diameters are 8.3 ± 3 Å for [512] and 9.9 ± 4 Å for [51264], i.e. twice the value of the 〈i—O〉 distances, where i is the respective cage center (Table 3b). Considering the ionic radius of O[2] atoms (1.35 Å) (Shannon, 1976), the effective diameters are ∼5.6 and ∼7.4 Å on average in the structure. The symmetry reduction resulting from the to A2/n transformation leads to a significant increase in distortion and, consequently, a larger range for individual i—O distances of the four individual [512] cages (i.e. 3.6–4.7 Å), even if the average 〈C—O〉 bond lengths are consistent (4.13 Å in and 4.14–4.16 Å in A2/n). In contrast, the unique [51264] cage type remains rather regular (i—O range from 4.9 to 5.1 Å); the effective pore sizes range from 4.5 to 6.7 Å and from 7.1 to 7.4 Å for the [512] and [51264] cages, respectively. With respect to the kinetic diameters of the hydrocarbons (3.8, 3.8, 4.3 and 5.0 Å; Breck, 1974) the distribution of the various hydrocarbon types seems possible. Even the largest hydrocarbon molecule i-C4H10, with its diameter of 5.0 Å, is still compatible with a location along the largest diameter of 6.7 Å inside the [512] cage at LT. The formally calculated largest effective diameter in the RT structure with the for the [512] cage is only ∼5.6 Å, and thus barely suitable for the larger hydrocarbons. However, the ADPs of the O atoms are up to 0.17 Å2. Thus, the distribution of the various hydrocarbon types is compatible with both cages at RT as well as LT.
is topologically equivalent to that of theThe assignment of distinct alignment positions of the molecules is not feasible because of the partial occupation and relatively high degree of freedom of displacement, resulting in large displacement parameters. Only the C1 positions in the centers of the [512] cages are (almost) completely occupied over the whole T range investigated. However, the large correlation between the SOFs and the displacement parameters does not allow for a detailed allocation. The sites are assumed to be the barycenters of the CH4, CO2, C3H8, C2H6 or i-C4H10 molecules. The positions located within the larger [51264] cage exhibit much weaker electron densities as a result of extensive disorder. Therefore, they reveal only partial site occupancies and their assignment is not possible. For the structure model in , the located electron-density maxima and refined atomic sites are most likely a result of the varied occupation of symmetrically equivalent positions in distinct host-framework cages. It should be mentioned that most of the partially occupied positions within the [51264] cage are arranged close to a centered sphere with a radius of approximately 1.4 Å; this causes distances to neighboring O atoms of about 3 Å, which is in accordance with the expected values for C—H⋯O hydrogen bonds. However, in the A2/n, the maxima are unique and therefore their number is smaller. A high degree of dynamic disorder with respect to molecule orientation is assumed.
5. Conclusions
Raman and sXRD investigations of chibaite at RT and at various LTs down to 100 K revealed a continuous phase transformation over the investigated T range. In accordance with earlier studies, chibaite crystallizes in the 2 host with mainly hydrocarbon guest molecules. Extremely disk-shaped ADPs, especially for the O atoms, suggest a static or dynamic disorder and might indicate a structural instability. As T decreases, the high symmetry continuously decreases over a certain T range. A distinct T of the cannot be verified. Reconstructed X-ray diffraction patterns reveal weak reflections whose intensities increase with decreasing T. The transformation according to the transformation matrix
at RT, the structure type of dodecasil-3C, consisting of an SiOfinally results in a monoclinic phase with A2/n symmetry, which is twinned according to the twin law
Both cells with space groups and A2/n have analogous cell volumes. In A2/n, the host framework has Si—O bond lengths and Si—O—Si angles that are much closer to the values known for stable silicate-framework structures compared with the RT structure with the model. Surprisingly, band splitting in the Raman spectra suggests that the hydrocarbon guest molecules C2H6, C3H8 and i-C4H10 occupy both cages. The larger [51264]-type cage was found to be unique in both structure types. The [512]-type cages (one crystallographically unique in , four different in A2/n) entrap the hydrocarbons CH4, C2H6, C3H8 and i-C4H10. Small amounts of Na atoms are located in the centers of the six-membered rings which constitute the cage walls of the host.
Supporting information
https://doi.org/10.1107/S2052252518009107/lt5009sup1.cif
contains datablocks 293k, 273k, 250k_mcl, 250k_cubic, 200k_mcl, 200k_cubic, 150k_mcl, 150k_cubic, 100k_mcl, 100k_cubic. DOI:Structure factors: contains datablock 293k. DOI: https://doi.org/10.1107/S2052252518009107/lt5009293ksup2.hkl
Structure factors: contains datablock 273k. DOI: https://doi.org/10.1107/S2052252518009107/lt5009273ksup3.hkl
Structure factors: contains datablock 250k_mcl. DOI: https://doi.org/10.1107/S2052252518009107/lt5009250k_mclsup4.hkl
Structure factors: contains datablock 250k_cubic. DOI: https://doi.org/10.1107/S2052252518009107/lt5009250k_cubicsup5.hkl
Structure factors: contains datablock 200k_mcl. DOI: https://doi.org/10.1107/S2052252518009107/lt5009200k_mclsup6.hkl
Structure factors: contains datablock 200k_cubic. DOI: https://doi.org/10.1107/S2052252518009107/lt5009200k_cubicsup7.hkl
Structure factors: contains datablock 150k_mcl. DOI: https://doi.org/10.1107/S2052252518009107/lt5009150k_mclsup8.hkl
Structure factors: contains datablock 150k_cubic. DOI: https://doi.org/10.1107/S2052252518009107/lt5009150k_cubicsup9.hkl
Structure factors: contains datablock 100k_mcl. DOI: https://doi.org/10.1107/S2052252518009107/lt5009100k_mclsup10.hkl
Structure factors: contains datablock 100k_cubic. DOI: https://doi.org/10.1107/S2052252518009107/lt5009100k_cubicsup11.hkl
Supplementary table. DOI: https://doi.org/10.1107/S2052252518009107/lt5009sup12.pdf
For all structures, program(s) used to refine structure: SHELXL (Sheldrick, 2015); molecular graphics: Olex2 (Dolomanov et al., 2009); software used to prepare material for publication: Olex2 (Dolomanov et al., 2009).
0.01(C10.91Na0.5O272Si136)·0.36(C) | Dx = 1.947 Mg m−3 |
Mr = 63.35 | Mo Kα radiation, λ = 0.71073 Å |
Cubic, Fd3m | Cell parameters from 32037 reflections |
a = 19.4420 (15) Å | θ = 3–67° |
V = 7348.9 (17) Å3 | µ = 0.70 mm−1 |
Z = 136 | T = 293 K |
F(000) = 4301 | Platelet |
StoeStadiVari diffractometer | θmax = 33.3°, θmin = 3.0° |
30717 measured reflections | h = −29→30 |
721 independent reflections | k = −29→29 |
591 reflections with I > 2σ(I) | l = −14→29 |
Rint = 0.096 |
Refinement on F2 | 0 restraints |
Least-squares matrix: full | w = 1/[σ2(Fo2) + (0.0439P)2 + 85.838P] where P = (Fo2 + 2Fc2)/3 |
R[F2 > 2σ(F2)] = 0.055 | (Δ/σ)max < 0.001 |
wR(F2) = 0.137 | Δρmax = 0.88 e Å−3 |
S = 1.15 | Δρmin = −0.76 e Å−3 |
721 reflections | Extinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4 |
46 parameters | Extinction coefficient: 0.00039 (10) |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1 | 0.06748 (4) | 0.06748 (4) | 0.36973 (5) | 0.0244 (3) | |
Si2 | 0.21629 (5) | 0.21629 (5) | 0.21629 (5) | 0.0180 (4) | |
Si3 | 0.1250 | 0.1250 | 0.1250 | 0.0180 (6) | |
O1 | 0.0000 | 0.34326 (17) | −0.34326 (17) | 0.0627 (12) | |
O2 | 0.1999 (2) | 0.1999 (2) | 0.2928 (2) | 0.0829 (17) | |
O3 | 0.3734 (3) | 0.1250 | 0.1250 | 0.0513 (13) | |
O4 | 0.1707 (2) | 0.1707 (2) | 0.1707 (2) | 0.120 (4) | |
Na | 0.5000 | 0.5000 | 0.5000 | 0.050* | 0.031 (14) |
C1 | 0.0000 | 0.0000 | 0.0000 | 0.083 (6) | |
C2A | 0.332 (4) | 0.332 (4) | 0.332 (4) | 0.050* | 0.10 (5) |
C2B | 0.392 (3) | 0.392 (3) | 0.392 (3) | 0.050* | 0.11 (2) |
C2C | 0.3614 (13) | 0.3614 (13) | 0.3015 (19) | 0.050* | 0.154 (14) |
C2D | 0.3426 (17) | 0.3426 (17) | 0.434 (2) | 0.050* | 0.114 (13) |
C2E | 0.324 (2) | 0.324 (2) | 0.361 (4) | 0.050* | 0.117 (19) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Si1 | 0.0261 (4) | 0.0261 (4) | 0.0210 (5) | 0.0036 (3) | −0.0049 (3) | −0.0049 (3) |
Si2 | 0.0180 (4) | 0.0180 (4) | 0.0180 (4) | −0.0012 (3) | −0.0012 (3) | −0.0012 (3) |
Si3 | 0.0180 (6) | 0.0180 (6) | 0.0180 (6) | 0.000 | 0.000 | 0.000 |
O1 | 0.0345 (18) | 0.0769 (19) | 0.0769 (19) | −0.0122 (12) | −0.0122 (12) | −0.017 (2) |
O2 | 0.108 (3) | 0.108 (3) | 0.032 (2) | 0.004 (3) | 0.0268 (17) | 0.0268 (17) |
O3 | 0.063 (4) | 0.0455 (19) | 0.0455 (19) | 0.000 | 0.000 | −0.014 (2) |
O4 | 0.120 (4) | 0.120 (4) | 0.120 (4) | −0.054 (3) | −0.054 (3) | −0.054 (3) |
C1 | 0.083 (6) | 0.083 (6) | 0.083 (6) | −0.010 (6) | −0.010 (6) | −0.010 (6) |
Si1—O1i | 1.5781 (8) | C2A—C2E | 0.61 (7) |
Si1—O1ii | 1.5781 (8) | C2A—C2Eviii | 0.61 (7) |
Si1—O2iii | 1.569 (4) | C2A—C2Evii | 0.61 (7) |
Si1—O3iv | 1.5831 (11) | C2B—C2Bxxxii | 0.92 (14) |
Si1—Nav | 3.1396 (11) | C2B—C2Bvi | 0.92 (14) |
Si1—Navi | 5.6213 (11) | C2B—C2Bxxxiii | 0.92 (14) |
Si2—O2 | 1.555 (4) | C2B—C2Cxxxii | 1.25 (4) |
Si2—O2vii | 1.555 (4) | C2B—C2Cxxxvi | 1.25 (4) |
Si2—O2viii | 1.555 (4) | C2B—C2Cxxxvii | 1.25 (4) |
Si2—O4 | 1.536 (7) | C2B—C2Dvi | 0.93 (8) |
Si2—Navi | 5.5933 (12) | C2B—C2Dxxxi | 0.93 (8) |
Si2—Naix | 5.5933 (12) | C2B—C2Dxxviii | 0.93 (8) |
Si2—Nax | 5.5933 (12) | C2B—C2Exxviii | 1.12 (7) |
Si3—O4xi | 1.538 (7) | C2B—C2Evi | 1.12 (7) |
Si3—O4 | 1.538 (7) | C2B—C2Exxxi | 1.12 (7) |
Si3—O4xii | 1.538 (7) | C2C—C2Bxxxiii | 1.25 (4) |
Si3—O4iii | 1.538 (7) | C2C—C2Bxxxii | 1.25 (4) |
O1—Si1xiii | 1.5781 (8) | C2C—C2Cvi | 0.75 (7) |
O1—Si1xiv | 1.5781 (8) | C2C—C2Dxxxiii | 1.00 (4) |
O1—Naxv | 2.564 (5) | C2C—C2Dxxxvii | 1.49 (3) |
O2—Si1iii | 1.569 (4) | C2C—C2Dxxxii | 1.00 (4) |
O2—Navi | 4.257 (5) | C2C—C2Dxxxiv | 1.49 (3) |
O3—Si1vii | 1.5830 (11) | C2C—C2Eviii | 0.85 (3) |
O3—Si1xvi | 1.5830 (11) | C2C—C2Exxxiv | 1.44 (4) |
O3—Naix | 4.228 (4) | C2C—C2Evii | 0.85 (3) |
O3—Naxvii | 4.228 (4) | C2C—C2Exxxvii | 1.44 (4) |
Na—Si1xviii | 3.1397 (11) | C2D—C2Axxxiii | 1.51 (7) |
Na—Si1xix | 3.1397 (11) | C2D—C2Axxxii | 1.51 (7) |
Na—Si1xx | 3.1397 (11) | C2D—C2Bvi | 0.93 (8) |
Na—O1xxi | 2.564 (5) | C2D—C2Cxxxii | 1.00 (4) |
Na—O1xxii | 2.564 (5) | C2D—C2Cxxxi | 1.49 (3) |
Na—O1xxiii | 2.564 (5) | C2D—C2Cxxviii | 1.49 (3) |
Na—O1xxiv | 2.564 (5) | C2D—C2Cxxxiii | 1.00 (4) |
Na—O1xxv | 2.564 (5) | C2D—C2Dxxxvi | 0.74 (8) |
Na—O1xxvi | 2.564 (5) | C2D—C2Dxxxv | 0.74 (8) |
Na—C2Dxxvii | 2.85 (5) | C2D—C2Exxxvi | 0.98 (6) |
Na—C2Dxxviii | 2.85 (5) | C2D—C2E | 1.51 (8) |
Na—C2Dxxix | 2.85 (5) | C2D—C2Exxxv | 0.98 (6) |
Na—C2Dxxx | 2.85 (5) | C2E—C2Bxxxii | 1.48 (6) |
Na—C2Dvi | 2.85 (5) | C2E—C2Bvi | 1.12 (7) |
Na—C2Dxxxi | 2.85 (5) | C2E—C2Bxxxiii | 1.48 (6) |
C2A—C2Bxxxii | 1.37 (11) | C2E—C2Cviii | 0.85 (3) |
C2A—C2Bxxxiii | 1.37 (11) | C2E—C2Cxxviii | 1.44 (4) |
C2A—C2Bvi | 1.37 (11) | C2E—C2Cxxxi | 1.44 (4) |
C2A—C2Cviii | 1.00 (6) | C2E—C2Cvii | 0.85 (3) |
C2A—C2Cvii | 1.00 (5) | C2E—C2Dxxxvi | 0.98 (6) |
C2A—C2C | 1.00 (6) | C2E—C2Dxxxv | 0.98 (6) |
C2A—C2Dxxxiv | 1.51 (7) | C2E—C2Evii | 1.02 (13) |
C2A—C2Dxxxv | 1.51 (7) | C2E—C2Eviii | 1.02 (12) |
C2A—C2Dxxxvi | 1.51 (7) | ||
O1i—Si1—O1ii | 108.7 (3) | C2Bxxxiii—C2B—C2Exxxi | 148 (5) |
O1i—Si1—O3iv | 110.03 (14) | C2Bvi—C2B—C2Exxviii | 92 (5) |
O1ii—Si1—O3iv | 110.03 (14) | C2Cxxxii—C2B—C2Cxxxvii | 146 (6) |
O1i—Si1—Nav | 54.37 (17) | C2Cxxxvi—C2B—C2Cxxxvii | 116 (3) |
O1i—Si1—Navi | 96.83 (4) | C2Cxxxii—C2B—C2Cxxxvi | 82 (3) |
O1ii—Si1—Navi | 96.83 (4) | C2Dxxviii—C2B—C2Bxxxiii | 149.1 (8) |
O1ii—Si1—Nav | 54.37 (17) | C2Dvi—C2B—C2Bxxxii | 149.1 (8) |
O2iii—Si1—O1i | 108.91 (14) | C2Dvi—C2B—C2Bvi | 117 (4) |
O2iii—Si1—O1ii | 108.91 (14) | C2Dxxviii—C2B—C2Bvi | 149.1 (8) |
O2iii—Si1—O3iv | 110.3 (3) | C2Dxxviii—C2B—C2Bxxxii | 117 (4) |
O2iii—Si1—Navi | 134.5 (2) | C2Dvi—C2B—C2Bxxxiii | 149.1 (8) |
O2iii—Si1—Nav | 126.1 (2) | C2Dxxxi—C2B—C2Bvi | 149.1 (8) |
O3iv—Si1—Nav | 123.7 (2) | C2Dxxxi—C2B—C2Bxxxiii | 117 (4) |
O3iv—Si1—Navi | 24.2 (2) | C2Dxxxi—C2B—C2Bxxxii | 149.1 (8) |
Nav—Si1—Navi | 99.45 (2) | C2Dxxxi—C2B—C2Cxxxii | 85 (4) |
O2—Si2—O2vii | 110.5 (2) | C2Dxxviii—C2B—C2Cxxxii | 99 (6) |
O2—Si2—O2viii | 110.5 (2) | C2Dxxxi—C2B—C2Cxxxvi | 52 (3) |
O2viii—Si2—O2vii | 110.5 (2) | C2Dxxviii—C2B—C2Cxxxvi | 99 (6) |
O2vii—Si2—Nax | 96.57 (18) | C2Dxxviii—C2B—C2Cxxxvii | 52 (3) |
O2viii—Si2—Nax | 26.4 (2) | C2Dvi—C2B—C2Cxxxvii | 99 (6) |
O2—Si2—Naix | 96.58 (18) | C2Dvi—C2B—C2Cxxxvi | 85 (4) |
O2—Si2—Navi | 26.4 (2) | C2Dxxxi—C2B—C2Cxxxvii | 85 (4) |
O2vii—Si2—Naix | 26.4 (2) | C2Dvi—C2B—C2Cxxxii | 52 (3) |
O2—Si2—Nax | 96.58 (18) | C2Dxxxi—C2B—C2Dvi | 47 (6) |
O2viii—Si2—Navi | 96.57 (18) | C2Dxxxi—C2B—C2Dxxviii | 47 (6) |
O2vii—Si2—Navi | 96.57 (18) | C2Dvi—C2B—C2Dxxviii | 47 (6) |
O2viii—Si2—Naix | 96.57 (18) | C2Dxxxi—C2B—C2Evi | 57 (4) |
O4—Si2—O2viii | 108.4 (2) | C2Dxxviii—C2B—C2Exxviii | 95 (8) |
O4—Si2—O2vii | 108.4 (2) | C2Dvi—C2B—C2Exxxi | 57 (4) |
O4—Si2—O2 | 108.4 (2) | C2Dxxxi—C2B—C2Exxxi | 95 (8) |
O4—Si2—Naix | 134.803 (11) | C2Dxxviii—C2B—C2Exxxi | 57 (4) |
O4—Si2—Nax | 134.803 (11) | C2Dvi—C2B—C2Evi | 95 (8) |
O4—Si2—Navi | 134.803 (11) | C2Dxxviii—C2B—C2Evi | 57 (4) |
Navi—Si2—Naix | 75.827 (17) | C2Dxxxi—C2B—C2Exxviii | 57 (4) |
Nax—Si2—Navi | 75.827 (17) | C2Dvi—C2B—C2Exxviii | 57 (4) |
Nax—Si2—Naix | 75.827 (17) | C2Evi—C2B—C2Cxxxii | 142 (8) |
O4xi—Si3—O4iii | 109.471 (1) | C2Evi—C2B—C2Cxxxvii | 41.5 (17) |
O4xi—Si3—O4xii | 109.5 | C2Exxxi—C2B—C2Cxxxvi | 142 (8) |
O4xi—Si3—O4 | 109.471 (1) | C2Exxxi—C2B—C2Cxxxvii | 74 (2) |
O4iii—Si3—O4 | 109.5 | C2Exxxi—C2B—C2Cxxxii | 74 (2) |
O4iii—Si3—O4xii | 109.5 | C2Exxviii—C2B—C2Cxxxvi | 41.5 (17) |
O4xii—Si3—O4 | 109.471 (1) | C2Evi—C2B—C2Cxxxvi | 74 (2) |
Si1xiii—O1—Si1xiv | 168.8 (3) | C2Exxviii—C2B—C2Cxxxii | 41.5 (17) |
Si1xiv—O1—Naxv | 95.62 (17) | C2Exxviii—C2B—C2Cxxxvii | 142 (8) |
Si1xiii—O1—Naxv | 95.62 (17) | C2Exxxi—C2B—C2Evi | 107 (6) |
Si1iii—O2—Navi | 36.58 (16) | C2Exxviii—C2B—C2Exxxi | 107 (6) |
Si2—O2—Si1iii | 179.2 (5) | C2Exxviii—C2B—C2Evi | 107 (6) |
Si2—O2—Navi | 144.2 (3) | C2A—C2C—C2Bxxxii | 74 (6) |
Si1vii—O3—Si1xvi | 174.9 (4) | C2A—C2C—C2Bxxxiii | 74 (6) |
Si1vii—O3—Naix | 147.0 (3) | C2A—C2C—C2Dxxxiv | 72 (4) |
Si1xvi—O3—Naix | 38.19 (16) | C2A—C2C—C2Dxxxvii | 72 (4) |
Si1xvi—O3—Naxvii | 147.0 (3) | C2A—C2C—C2Exxxvii | 122 (6) |
Si1vii—O3—Naxvii | 38.19 (16) | C2A—C2C—C2Exxxiv | 122 (6) |
Naix—O3—Naxvii | 108.78 (13) | C2Bxxxiii—C2C—C2Bxxxii | 43 (8) |
Si2—O4—Si3 | 180.0 (8) | C2Bxxxii—C2C—C2Dxxxiv | 38 (3) |
Si1xx—Na—Si1xix | 180.00 (3) | C2Bxxxiii—C2C—C2Dxxxvii | 38 (4) |
Si1xviii—Na—Si1xx | 119.972 (1) | C2Bxxxiii—C2C—C2Dxxxiv | 81 (5) |
Si1xviii—Na—Si1xix | 60.028 (1) | C2Bxxxii—C2C—C2Dxxxvii | 81 (5) |
O1xxi—Na—Si1xviii | 30.014 (1) | C2Bxxxii—C2C—C2Exxxvii | 66 (4) |
O1xxii—Na—Si1xx | 149.986 (1) | C2Bxxxii—C2C—C2Exxxiv | 48 (3) |
O1xxiv—Na—Si1xx | 90.0 | C2Bxxxiii—C2C—C2Exxxvii | 48 (3) |
O1xxii—Na—Si1xviii | 90.0 | C2Bxxxiii—C2C—C2Exxxiv | 66 (4) |
O1xxv—Na—Si1xx | 30.014 (1) | C2Cvi—C2C—C2A | 144 (7) |
O1xxv—Na—Si1xix | 149.986 (1) | C2Cvi—C2C—C2Bxxxii | 72.6 (16) |
O1xxv—Na—Si1xviii | 90.0 | C2Cvi—C2C—C2Bxxxiii | 72.6 (16) |
O1xxiii—Na—Si1xviii | 149.986 (1) | C2Cvi—C2C—C2Dxxxiv | 89.8 (19) |
O1xxii—Na—Si1xix | 30.014 (1) | C2Cvi—C2C—C2Dxxxii | 68 (2) |
O1xxvi—Na—Si1xx | 30.014 (1) | C2Cvi—C2C—C2Dxxxvii | 89.8 (19) |
O1xxiv—Na—Si1xix | 90.0 | C2Cvi—C2C—C2Dxxxiii | 68 (2) |
O1xxiii—Na—Si1xix | 90.0 | C2Cvi—C2C—C2Evii | 128 (5) |
O1xxiii—Na—Si1xx | 90.0 | C2Cvi—C2C—C2Exxxiv | 28 (2) |
O1xxi—Na—Si1xx | 149.986 (1) | C2Cvi—C2C—C2Eviii | 128 (5) |
O1xxiv—Na—Si1xviii | 30.014 (1) | C2Cvi—C2C—C2Exxxvii | 28 (2) |
O1xxvi—Na—Si1xix | 149.986 (1) | C2Dxxxii—C2C—C2A | 98 (4) |
O1xxvi—Na—Si1xviii | 149.986 (1) | C2Dxxxiii—C2C—C2A | 98 (4) |
O1xxi—Na—Si1xix | 30.014 (1) | C2Dxxxiii—C2C—C2Bxxxii | 47 (4) |
O1xxvi—Na—O1xxi | 180.0 | C2Dxxxii—C2C—C2Bxxxiii | 47 (4) |
O1xxvi—Na—O1xxiii | 60.0 | C2Dxxxii—C2C—C2Bxxxii | 88 (6) |
O1xxiv—Na—O1xxiii | 180.0 | C2Dxxxiii—C2C—C2Bxxxiii | 88 (6) |
O1xxii—Na—O1xxiv | 120.0 | C2Dxxxii—C2C—C2Dxxxvii | 26 (3) |
O1xxii—Na—O1xxiii | 60.0 | C2Dxxxii—C2C—C2Dxxxiv | 127 (5) |
O1xxv—Na—O1xxiii | 120.0 | C2Dxxxiv—C2C—C2Dxxxvii | 115 (4) |
O1xxvi—Na—O1xxv | 60.0 | C2Dxxxiii—C2C—C2Dxxxiv | 26 (3) |
O1xxvi—Na—O1xxii | 120.0 | C2Dxxxiii—C2C—C2Dxxxvii | 127 (5) |
O1xxi—Na—O1xxv | 120.0 | C2Dxxxiii—C2C—C2Dxxxii | 125 (5) |
O1xxi—Na—O1xxiii | 120.0 | C2Dxxxii—C2C—C2Exxxvii | 43 (3) |
O1xxii—Na—O1xxv | 180.0 | C2Dxxxiii—C2C—C2Exxxiv | 43 (3) |
O1xxi—Na—O1xxii | 60.0 | C2Dxxxiii—C2C—C2Exxxvii | 84 (4) |
O1xxvi—Na—O1xxiv | 120.0 | C2Dxxxii—C2C—C2Exxxiv | 84 (4) |
O1xxi—Na—O1xxiv | 60.0 | C2Eviii—C2C—C2A | 37 (5) |
O1xxv—Na—O1xxiv | 60.0 | C2Evii—C2C—C2A | 37 (5) |
O1xxi—Na—C2Dxxvii | 90.000 (2) | C2Evii—C2C—C2Bxxxiii | 87 (6) |
O1xxi—Na—C2Dxxviii | 97.5 (8) | C2Evii—C2C—C2Bxxxii | 61 (5) |
O1xxi—Na—C2Dxxxi | 82.5 (8) | C2Eviii—C2C—C2Bxxxii | 87 (6) |
O1xxii—Na—C2Dxxvii | 82.5 (8) | C2Eviii—C2C—C2Bxxxiii | 61 (5) |
O1xxii—Na—C2Dxxix | 90.000 (4) | C2Exxxiv—C2C—C2Dxxxvii | 98 (4) |
O1xxv—Na—C2Dxxvii | 97.5 (8) | C2Evii—C2C—C2Dxxxvii | 103 (6) |
O1xxiv—Na—C2Dxxxi | 90.000 (5) | C2Eviii—C2C—C2Dxxxvii | 39 (5) |
O1xxiv—Na—C2Dxxvii | 97.5 (8) | C2Eviii—C2C—C2Dxxxiii | 128 (7) |
O1xxiii—Na—C2Dvi | 97.5 (8) | C2Exxxvii—C2C—C2Dxxxiv | 98 (4) |
O1xxiii—Na—C2Dxxvii | 82.5 (8) | C2Evii—C2C—C2Dxxxii | 128 (7) |
O1xxiii—Na—C2Dxxx | 90.000 (5) | C2Evii—C2C—C2Dxxxiv | 39 (5) |
O1xxvi—Na—C2Dvi | 90.000 (3) | C2Eviii—C2C—C2Dxxxii | 64 (5) |
O1xxvi—Na—C2Dxxvii | 90.000 (5) | C2Exxxiv—C2C—C2Dxxxiv | 62 (3) |
O1xxi—Na—C2Dvi | 90.000 (5) | C2Exxxvii—C2C—C2Dxxxvii | 62 (3) |
O1xxii—Na—C2Dvi | 97.5 (8) | C2Eviii—C2C—C2Dxxxiv | 103 (6) |
O1xxii—Na—C2Dxxviii | 90.000 (2) | C2Evii—C2C—C2Dxxxiii | 64 (5) |
O1xxvi—Na—C2Dxxx | 82.5 (8) | C2Evii—C2C—C2Exxxiv | 100 (7) |
O1xxiii—Na—C2Dxxviii | 82.5 (8) | C2Exxxvii—C2C—C2Exxxiv | 42 (6) |
O1xxvi—Na—C2Dxxviii | 82.5 (8) | C2Eviii—C2C—C2Evii | 74 (10) |
O1xxi—Na—C2Dxxix | 82.5 (8) | C2Evii—C2C—C2Exxxvii | 127 (7) |
O1xxiii—Na—C2Dxxix | 97.5 (8) | C2Eviii—C2C—C2Exxxvii | 100 (7) |
O1xxv—Na—C2Dxxix | 90.000 (2) | C2Eviii—C2C—C2Exxxiv | 127 (7) |
O1xxi—Na—C2Dxxx | 97.5 (8) | C2Axxxii—C2D—C2Axxxiii | 103 (7) |
O1xxvi—Na—C2Dxxxi | 97.5 (8) | C2Bvi—C2D—C2Axxxiii | 63 (4) |
O1xxvi—Na—C2Dxxix | 97.5 (8) | C2Bvi—C2D—C2Axxxii | 63 (4) |
O1xxv—Na—C2Dxxviii | 90.000 (4) | C2Bvi—C2D—C2Cxxviii | 57 (2) |
O1xxii—Na—C2Dxxx | 97.5 (8) | C2Bvi—C2D—C2Cxxxi | 57 (2) |
O1xxv—Na—C2Dxxxi | 97.5 (8) | C2Bvi—C2D—C2Cxxxii | 81 (4) |
O1xxii—Na—C2Dxxxi | 82.5 (8) | C2Bvi—C2D—C2Cxxxiii | 81 (4) |
O1xxiii—Na—C2Dxxxi | 90.000 (1) | C2Bvi—C2D—C2Exxxvi | 71 (4) |
O1xxv—Na—C2Dxxx | 82.5 (8) | C2Bvi—C2D—C2Exxxv | 71 (4) |
O1xxiv—Na—C2Dvi | 82.5 (8) | C2Bvi—C2D—C2E | 47 (4) |
O1xxiv—Na—C2Dxxviii | 97.5 (8) | C2Cxxxi—C2D—C2Axxxii | 118 (5) |
O1xxiv—Na—C2Dxxix | 82.5 (8) | C2Cxxxiii—C2D—C2Axxxiii | 41 (2) |
O1xxiv—Na—C2Dxxx | 90.000 (1) | C2Cxxxii—C2D—C2Axxxii | 41 (2) |
O1xxv—Na—C2Dvi | 82.5 (8) | C2Cxxxiii—C2D—C2Axxxii | 80 (3) |
C2Dxxxi—Na—Si1xviii | 86.7 (4) | C2Cxxviii—C2D—C2Axxxii | 39.0 (17) |
C2Dvi—Na—Si1xix | 93.3 (4) | C2Cxxviii—C2D—C2Axxxiii | 118 (5) |
C2Dxxviii—Na—Si1xix | 93.3 (4) | C2Cxxxi—C2D—C2Axxxiii | 39.0 (17) |
C2Dxxvii—Na—Si1xviii | 93.3 (4) | C2Cxxxii—C2D—C2Axxxiii | 80 (3) |
C2Dxxxi—Na—Si1xix | 80.4 (9) | C2Cxxxiii—C2D—C2Cxxviii | 115 (4) |
C2Dxxx—Na—Si1xix | 99.6 (9) | C2Cxxxii—C2D—C2Cxxxi | 115 (4) |
C2Dxxix—Na—Si1xviii | 80.4 (9) | C2Cxxxii—C2D—C2Cxxviii | 80 (4) |
C2Dxxviii—Na—Si1xx | 86.7 (4) | C2Cxxxiii—C2D—C2Cxxxii | 44 (4) |
C2Dxxx—Na—Si1xx | 80.4 (9) | C2Cxxxiii—C2D—C2Cxxxi | 80 (4) |
C2Dxxvii—Na—Si1xix | 86.7 (4) | C2Cxxviii—C2D—C2Cxxxi | 107 (4) |
C2Dxxvii—Na—Si1xx | 93.3 (4) | C2Cxxxii—C2D—C2E | 124 (5) |
C2Dxxix—Na—Si1xx | 93.3 (4) | C2Cxxxiii—C2D—C2Exxxvi | 92 (5) |
C2Dvi—Na—Si1xx | 86.7 (4) | C2Cxxxii—C2D—C2Exxxv | 92 (5) |
C2Dxxix—Na—Si1xix | 86.7 (4) | C2Cxxviii—C2D—C2E | 57 (2) |
C2Dxxviii—Na—Si1xviii | 99.6 (9) | C2Cxxxiii—C2D—C2E | 124 (5) |
C2Dxxxi—Na—Si1xx | 99.6 (9) | C2Cxxxii—C2D—C2Exxxvi | 50 (3) |
C2Dvi—Na—Si1xviii | 86.7 (4) | C2Cxxxiii—C2D—C2Exxxv | 50 (3) |
C2Dxxx—Na—Si1xviii | 93.3 (4) | C2Cxxxi—C2D—C2E | 57 (2) |
C2Dxxviii—Na—C2Dvi | 14.9 (15) | C2Dxxxv—C2D—C2Axxxiii | 122 (3) |
C2Dxxviii—Na—C2Dxxix | 180.0 (11) | C2Dxxxvi—C2D—C2Axxxii | 122 (3) |
C2Dxxxi—Na—C2Dxxvii | 165.1 (15) | C2Dxxxv—C2D—C2Axxxii | 75.9 (17) |
C2Dxxix—Na—C2Dxxxi | 165.1 (15) | C2Dxxxvi—C2D—C2Axxxiii | 75.9 (17) |
C2Dxxvii—Na—C2Dvi | 180.0 | C2Dxxxv—C2D—C2Bvi | 67 (3) |
C2Dxxviii—Na—C2Dxxvii | 165.1 (15) | C2Dxxxvi—C2D—C2Bvi | 67 (3) |
C2Dxxxi—Na—C2Dxxx | 180.0 | C2Dxxxvi—C2D—C2Cxxviii | 90.2 (19) |
C2Dxxix—Na—C2Dxxx | 14.9 (15) | C2Dxxxv—C2D—C2Cxxxii | 117 (3) |
C2Dxxx—Na—C2Dvi | 165.1 (15) | C2Dxxxv—C2D—C2Cxxviii | 37 (2) |
C2Dxxx—Na—C2Dxxvii | 14.9 (15) | C2Dxxxvi—C2D—C2Cxxxi | 37 (2) |
C2Dxxix—Na—C2Dxxvii | 14.9 (15) | C2Dxxxvi—C2D—C2Cxxxii | 145 (3) |
C2Dxxviii—Na—C2Dxxxi | 14.9 (15) | C2Dxxxv—C2D—C2Cxxxiii | 145 (3) |
C2Dxxix—Na—C2Dvi | 165.1 (15) | C2Dxxxvi—C2D—C2Cxxxiii | 117 (3) |
C2Dxxviii—Na—C2Dxxx | 165.1 (15) | C2Dxxxv—C2D—C2Cxxxi | 90.2 (19) |
C2Dxxxi—Na—C2Dvi | 14.9 (15) | C2Dxxxvi—C2D—C2Dxxxv | 60.00 (3) |
C2Bxxxii—C2A—C2Bxxxiii | 39 (7) | C2Dxxxvi—C2D—C2Exxxv | 68 (3) |
C2Bxxxii—C2A—C2Bvi | 39 (7) | C2Dxxxv—C2D—C2Exxxvi | 68 (3) |
C2Bxxxiii—C2A—C2Bvi | 39 (7) | C2Dxxxv—C2D—C2E | 33.4 (13) |
C2Bvi—C2A—C2Dxxxv | 37 (4) | C2Dxxxvi—C2D—C2Exxxvi | 122 (3) |
C2Bxxxii—C2A—C2Dxxxvi | 66 (5) | C2Dxxxv—C2D—C2Exxxv | 122 (3) |
C2Bxxxiii—C2A—C2Dxxxiv | 76 (7) | C2Dxxxvi—C2D—C2E | 33.4 (13) |
C2Bxxxiii—C2A—C2Dxxxvi | 76 (7) | C2Exxxv—C2D—C2Axxxii | 117 (5) |
C2Bxxxiii—C2A—C2Dxxxv | 66 (5) | C2Exxxv—C2D—C2Axxxiii | 14 (6) |
C2Bxxxii—C2A—C2Dxxxv | 76 (7) | C2Exxxvi—C2D—C2Axxxii | 14 (6) |
C2Bvi—C2A—C2Dxxxiv | 66 (5) | C2E—C2D—C2Axxxiii | 90 (3) |
C2Bxxxii—C2A—C2Dxxxiv | 37 (4) | C2Exxxvi—C2D—C2Axxxiii | 117 (5) |
C2Bvi—C2A—C2Dxxxvi | 37 (4) | C2E—C2D—C2Axxxii | 90 (3) |
C2C—C2A—C2Bxxxii | 61 (6) | C2Exxxvi—C2D—C2Cxxxi | 128 (5) |
C2Cvii—C2A—C2Bxxxii | 94 (10) | C2Exxxv—C2D—C2Cxxviii | 128 (5) |
C2C—C2A—C2Bxxxiii | 61 (6) | C2Exxxv—C2D—C2Cxxxi | 33 (2) |
C2Cviii—C2A—C2Bxxxiii | 94 (10) | C2Exxxvi—C2D—C2Cxxviii | 33 (2) |
C2Cvii—C2A—C2Bvi | 61 (6) | C2Exxxv—C2D—C2E | 89 (4) |
C2C—C2A—C2Bvi | 94 (10) | C2Exxxvi—C2D—C2E | 89 (4) |
C2Cviii—C2A—C2Bvi | 61 (6) | C2Exxxvi—C2D—C2Exxxv | 130 (9) |
C2Cvii—C2A—C2Bxxxiii | 61 (6) | C2A—C2E—C2Bxxxii | 68 (10) |
C2Cviii—C2A—C2Bxxxii | 61 (6) | C2A—C2E—C2Bxxxiii | 68 (10) |
C2C—C2A—C2Cviii | 110 (7) | C2A—C2E—C2Bvi | 101 (10) |
C2Cviii—C2A—C2Cvii | 110 (7) | C2A—C2E—C2Cvii | 85 (7) |
C2C—C2A—C2Cvii | 110 (7) | C2A—C2E—C2Cxxviii | 102 (9) |
C2Cvii—C2A—C2Dxxxvi | 69 (4) | C2A—C2E—C2Cviii | 85 (7) |
C2C—C2A—C2Dxxxvi | 128 (10) | C2A—C2E—C2Cxxxi | 102 (9) |
C2C—C2A—C2Dxxxv | 128 (10) | C2A—C2E—C2Dxxxvi | 143 (10) |
C2Cvii—C2A—C2Dxxxiv | 128 (10) | C2A—C2E—C2Dxxxv | 143 (10) |
C2Cvii—C2A—C2Dxxxv | 41 (3) | C2A—C2E—C2Eviii | 33 (6) |
C2Cviii—C2A—C2Dxxxv | 69 (4) | C2A—C2E—C2Evii | 33 (6) |
C2Cviii—C2A—C2Dxxxiv | 41 (3) | C2Bvi—C2E—C2Bxxxii | 39 (7) |
C2C—C2A—C2Dxxxiv | 69 (4) | C2Bvi—C2E—C2Bxxxiii | 39 (7) |
C2Cviii—C2A—C2Dxxxvi | 41 (3) | C2Bxxxii—C2E—C2Bxxxiii | 36 (5) |
C2Dxxxv—C2A—C2Dxxxiv | 96 (6) | C2Bvi—C2E—C2Cxxxi | 57 (3) |
C2Dxxxvi—C2A—C2Dxxxv | 28 (3) | C2Bvi—C2E—C2Cxxviii | 57 (3) |
C2Dxxxvi—C2A—C2Dxxxiv | 72 (5) | C2Cvii—C2E—C2Bvi | 78 (5) |
C2Evii—C2A—C2Bxxxii | 53 (10) | C2Cxxviii—C2E—C2Bxxxii | 84 (5) |
C2Eviii—C2A—C2Bxxxiii | 53 (10) | C2Cviii—C2E—C2Bxxxiii | 94 (6) |
C2E—C2A—C2Bvi | 53 (10) | C2Cvii—C2E—C2Bxxxiii | 58 (5) |
C2Eviii—C2A—C2Bvi | 88 (10) | C2Cviii—C2E—C2Bvi | 78 (5) |
C2Eviii—C2A—C2Bxxxii | 88 (10) | C2Cxxxi—C2E—C2Bxxxii | 51 (3) |
C2Evii—C2A—C2Bxxxiii | 88 (10) | C2Cxxxi—C2E—C2Bxxxiii | 84 (5) |
C2E—C2A—C2Bxxxiii | 88 (10) | C2Cviii—C2E—C2Bxxxii | 58 (5) |
C2Evii—C2A—C2Bvi | 88 (10) | C2Cxxviii—C2E—C2Bxxxiii | 51 (3) |
C2E—C2A—C2Bxxxii | 88 (10) | C2Cvii—C2E—C2Bxxxii | 94 (6) |
C2Eviii—C2A—C2C | 58 (4) | C2Cviii—C2E—C2Cvii | 152 (10) |
C2Eviii—C2A—C2Cviii | 147 (10) | C2Cvii—C2E—C2Cxxviii | 24 (3) |
C2Evii—C2A—C2Cviii | 58 (4) | C2Cviii—C2E—C2Cxxxi | 24 (3) |
C2E—C2A—C2Cviii | 58 (4) | C2Cviii—C2E—C2Cxxviii | 135 (7) |
C2Evii—C2A—C2Cvii | 147 (10) | C2Cxxviii—C2E—C2Cxxxi | 113 (5) |
C2Eviii—C2A—C2Cvii | 58 (4) | C2Cvii—C2E—C2Cxxxi | 135 (7) |
C2E—C2A—C2C | 147 (10) | C2Cvii—C2E—C2Dxxxvi | 109 (7) |
C2Evii—C2A—C2C | 58 (4) | C2Cviii—C2E—C2Dxxxv | 109 (7) |
C2E—C2A—C2Cvii | 58 (4) | C2Cviii—C2E—C2Dxxxvi | 66 (4) |
C2Eviii—C2A—C2Dxxxiv | 119 (10) | C2Cvii—C2E—C2Dxxxv | 66 (4) |
C2E—C2A—C2Dxxxv | 23 (9) | C2Cviii—C2E—C2Evii | 53 (5) |
C2Eviii—C2A—C2Dxxxv | 94 (9) | C2Cvii—C2E—C2Eviii | 53 (5) |
C2Evii—C2A—C2Dxxxv | 119 (10) | C2Cvii—C2E—C2Evii | 112 (5) |
C2Eviii—C2A—C2Dxxxvi | 119 (10) | C2Cviii—C2E—C2Eviii | 112 (5) |
C2Evii—C2A—C2Dxxxvi | 94 (9) | C2Dxxxvi—C2E—C2Bxxxiii | 91 (6) |
C2E—C2A—C2Dxxxvi | 23 (9) | C2Dxxxvi—C2E—C2Bvi | 52 (5) |
C2Evii—C2A—C2Dxxxiv | 23 (9) | C2Dxxxv—C2E—C2Bxxxiii | 77 (5) |
C2E—C2A—C2Dxxxiv | 94 (9) | C2Dxxxvi—C2E—C2Bxxxii | 77 (5) |
C2Eviii—C2A—C2E | 114 (10) | C2Dxxxv—C2E—C2Bvi | 52 (5) |
C2Eviii—C2A—C2Evii | 114 (10) | C2Dxxxv—C2E—C2Bxxxii | 91 (6) |
C2Evii—C2A—C2E | 114 (10) | C2Dxxxvi—C2E—C2Cxxviii | 85 (4) |
C2Bxxxiii—C2B—C2Bxxxii | 60.00 (3) | C2Dxxxv—C2E—C2Cxxviii | 44 (3) |
C2Bvi—C2B—C2Bxxxii | 60.00 (2) | C2Dxxxvi—C2E—C2Cxxxi | 44 (3) |
C2Bxxxiii—C2B—C2Bvi | 60.00 (2) | C2Dxxxv—C2E—C2Cxxxi | 85 (4) |
C2Bxxxiii—C2B—C2Cxxxvi | 68 (4) | C2Dxxxvi—C2E—C2Dxxxv | 44 (6) |
C2Bxxxii—C2B—C2Cxxxvi | 126 (4) | C2Eviii—C2E—C2Bvi | 88 (5) |
C2Bvi—C2B—C2Cxxxii | 68 (4) | C2Evii—C2E—C2Bxxxiii | 70 (2) |
C2Bvi—C2B—C2Cxxxvi | 107 (3) | C2Eviii—C2E—C2Bxxxiii | 49 (4) |
C2Bvi—C2B—C2Cxxxvii | 126 (4) | C2Evii—C2E—C2Bvi | 88 (5) |
C2Bxxxiii—C2B—C2Cxxxvii | 107 (3) | C2Eviii—C2E—C2Bxxxii | 70 (2) |
C2Bxxxiii—C2B—C2Cxxxii | 107 (3) | C2Evii—C2E—C2Bxxxii | 49 (4) |
C2Bxxxii—C2B—C2Cxxxvii | 68 (4) | C2Eviii—C2E—C2Cxxxi | 119 (3) |
C2Bxxxii—C2B—C2Cxxxii | 126 (4) | C2Eviii—C2E—C2Cxxviii | 69 (3) |
C2Bxxxii—C2B—C2Exxviii | 148 (5) | C2Evii—C2E—C2Cxxviii | 119 (3) |
C2Bvi—C2B—C2Evi | 148 (5) | C2Evii—C2E—C2Cxxxi | 69 (3) |
C2Bxxxii—C2B—C2Exxxi | 92 (5) | C2Evii—C2E—C2Dxxxv | 140 (4) |
C2Bxxxiii—C2B—C2Evi | 92 (5) | C2Evii—C2E—C2Dxxxvi | 113 (4) |
C2Bvi—C2B—C2Exxxi | 92 (5) | C2Eviii—C2E—C2Dxxxvi | 140 (4) |
C2Bxxxii—C2B—C2Evi | 92 (5) | C2Eviii—C2E—C2Dxxxv | 113 (4) |
C2Bxxxiii—C2B—C2Exxviii | 92 (5) | C2Eviii—C2E—C2Evii | 59.999 (12) |
Symmetry codes: (i) y−1/4, −x, z+3/4; (ii) −x, y−1/4, z+3/4; (iii) −x+1/4, −y+1/4, z; (iv) −z+1/4, −y+1/4, x; (v) x−1/2, y−1/2, z; (vi) −x+3/4, −y+3/4, z; (vii) z, x, y; (viii) y, z, x; (ix) −y+1, x−1/4, z−1/4; (x) y−1/4, −x+1, z−1/4; (xi) −y+1/4, x, −z+1/4; (xii) y, −x+1/4, −z+1/4; (xiii) y, −z+3/4, −x−1/4; (xiv) −y, x+1/4, z−3/4; (xv) −y+1/2, x−1/4, z−3/4; (xvi) z, −y+1/4, −x+1/4; (xvii) x, y−1/2, z−1/2; (xviii) z, x+1/2, y+1/2; (xix) −y+1/2, −z+1, −x+1/2; (xx) y+1/2, z, x+1/2; (xxi) z+3/4, y+1/4, −x+1/2; (xxii) −x+1/2, y+1/4, z+3/4; (xxiii) y+1/4, −x+1/2, z+3/4; (xxiv) −y+3/4, x+1/2, −z+1/4; (xxv) x+1/2, −y+3/4, −z+1/4; (xxvi) −z+1/4, −y+3/4, x+1/2; (xxvii) x+1/4, y+1/4, −z+1; (xxviii) z, −y+3/4, −x+3/4; (xxix) −z+1, y+1/4, x+1/4; (xxx) x+1/4, −z+1, y+1/4; (xxxi) −x+3/4, z, −y+3/4; (xxxii) y, −x+3/4, −z+3/4; (xxxiii) −y+3/4, x, −z+3/4; (xxxiv) −x+3/4, −z+3/4, y; (xxxv) −z+3/4, x, −y+3/4; (xxxvi) y, −z+3/4, −x+3/4; (xxxvii) −z+3/4, −y+3/4, x. |
0.01(C10.93Na0.63O272Si136)·0.38(C) | Dx = 1.953 Mg m−3 |
Mr = 63.35 | Mo Kα radiation, λ = 0.71073 Å |
Cubic, Fd3m | Cell parameters from 32011 reflections |
a = 19.4214 (15) Å | θ = 3–67° |
V = 7325.6 (17) Å3 | µ = 0.70 mm−1 |
Z = 136 | T = 273 K |
F(000) = 4301 | Platelet |
StoeStadiVari diffractometer | θmax = 33.3°, θmin = 3.0° |
30687 measured reflections | h = −29→29 |
722 independent reflections | k = −29→29 |
638 reflections with I > 2σ(I) | l = −14→29 |
Rint = 0.106 |
Refinement on F2 | 0 restraints |
Least-squares matrix: full | w = 1/[σ2(Fo2) + 237.P] where P = (Fo2 + 2Fc2)/3 |
R[F2 > 2σ(F2)] = 0.080 | (Δ/σ)max < 0.001 |
wR(F2) = 0.161 | Δρmax = 0.97 e Å−3 |
S = 1.26 | Δρmin = −1.26 e Å−3 |
722 reflections | Extinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4 |
46 parameters | Extinction coefficient: 0.00035 (9) |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1 | 0.06748 (6) | 0.06748 (6) | 0.36963 (8) | 0.0247 (4) | |
Si2 | 0.21635 (7) | 0.21635 (7) | 0.21635 (7) | 0.0170 (5) | |
Si3 | 0.1250 | 0.1250 | 0.1250 | 0.0175 (9) | |
O1 | 0.0000 | 0.3433 (3) | −0.3433 (3) | 0.0648 (18) | |
O2 | 0.2001 (3) | 0.2001 (3) | 0.2930 (3) | 0.085 (3) | |
O3 | 0.3734 (5) | 0.1250 | 0.1250 | 0.0498 (18) | |
O4 | 0.1709 (3) | 0.1709 (3) | 0.1709 (3) | 0.116 (6) | |
Na | 0.5000 | 0.5000 | 0.5000 | 0.050* | 0.039 (19) |
C1 | 0.0000 | 0.0000 | 0.0000 | 0.072 (7) | |
C2A | 0.334 (11) | 0.334 (11) | 0.334 (11) | 0.050* | 0.06 (12) |
C2B | 0.397 (4) | 0.397 (4) | 0.397 (4) | 0.050* | 0.13 (4) |
C2C | 0.361 (2) | 0.361 (2) | 0.300 (3) | 0.050* | 0.15 (2) |
C2D | 0.343 (3) | 0.343 (3) | 0.437 (4) | 0.050* | 0.11 (2) |
C2E | 0.324 (3) | 0.324 (3) | 0.356 (5) | 0.050* | 0.15 (4) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Si1 | 0.0275 (5) | 0.0275 (5) | 0.0191 (7) | 0.0058 (6) | −0.0057 (4) | −0.0057 (4) |
Si2 | 0.0170 (5) | 0.0170 (5) | 0.0170 (5) | −0.0013 (5) | −0.0013 (5) | −0.0013 (5) |
Si3 | 0.0175 (9) | 0.0175 (9) | 0.0175 (9) | 0.000 | 0.000 | 0.000 |
O1 | 0.036 (3) | 0.079 (3) | 0.079 (3) | −0.0120 (18) | −0.0120 (18) | −0.019 (3) |
O2 | 0.112 (4) | 0.112 (4) | 0.032 (3) | 0.006 (5) | 0.029 (3) | 0.029 (3) |
O3 | 0.064 (5) | 0.043 (3) | 0.043 (3) | 0.000 | 0.000 | −0.009 (3) |
O4 | 0.116 (6) | 0.116 (6) | 0.116 (6) | −0.051 (4) | −0.051 (4) | −0.051 (4) |
C1 | 0.072 (7) | 0.072 (7) | 0.072 (7) | −0.008 (7) | −0.008 (7) | −0.008 (7) |
Si1—O1i | 1.5770 (12) | C2A—C2Dxxxv | 1.48 (17) |
Si1—O1ii | 1.5770 (12) | C2A—C2E | 0.51 (11) |
Si1—O2iii | 1.565 (6) | C2A—C2Eviii | 0.51 (11) |
Si1—O3iv | 1.5816 (17) | C2A—C2Evii | 0.51 (11) |
Si1—Nav | 3.1377 (17) | C2B—C2Cxxxvi | 1.26 (5) |
Si1—Navi | 5.6163 (16) | C2B—C2Cxxxvii | 1.26 (5) |
Si2—O2vii | 1.553 (5) | C2B—C2Cxxxii | 1.26 (5) |
Si2—O2 | 1.553 (5) | C2B—C2Cxxxiii | 1.26 (5) |
Si2—O2viii | 1.553 (5) | C2B—C2Cxxxiv | 1.26 (5) |
Si2—O4 | 1.528 (11) | C2B—C2Cxxxv | 1.26 (5) |
Si2—Naix | 5.5860 (17) | C2B—C2Dvi | 0.83 (10) |
Si2—Navi | 5.5860 (17) | C2B—C2Dxxviii | 0.83 (10) |
Si2—Nax | 5.5860 (17) | C2B—C2Dxxxi | 0.83 (10) |
Si3—O4xi | 1.544 (10) | C2B—C2Exxxi | 1.13 (8) |
Si3—O4 | 1.544 (10) | C2B—C2Exxviii | 1.13 (8) |
Si3—O4xii | 1.544 (10) | C2B—C2Evi | 1.13 (8) |
Si3—O4iii | 1.544 (10) | C2C—C2Avi | 1.6 (2) |
O1—Si1xiii | 1.5770 (12) | C2C—C2Bxxxii | 1.26 (5) |
O1—Si1xiv | 1.5770 (12) | C2C—C2Bxxxiii | 1.26 (5) |
O1—Naxv | 2.563 (7) | C2C—C2Cvi | 0.76 (11) |
O2—Si1iii | 1.565 (6) | C2C—C2Dxxxii | 0.98 (7) |
O2—Navi | 4.248 (7) | C2C—C2Dxxxiii | 0.98 (7) |
O3—Si1viii | 1.5817 (17) | C2C—C2E | 1.50 (12) |
O3—Si1xvi | 1.5817 (17) | C2C—C2Exxxiv | 1.49 (6) |
O3—Naix | 4.223 (5) | C2C—C2Exxxv | 1.49 (6) |
O3—Naxvii | 4.223 (5) | C2C—C2Evii | 0.87 (5) |
Na—Si1xviii | 3.1377 (17) | C2C—C2Eviii | 0.87 (5) |
Na—Si1xix | 3.1377 (17) | C2D—C2Axxxii | 1.48 (17) |
Na—Si1xx | 3.1377 (17) | C2D—C2Axxxiii | 1.48 (17) |
Na—O1xxi | 2.563 (7) | C2D—C2Bvi | 0.83 (10) |
Na—O1xxii | 2.563 (7) | C2D—C2Cxxxii | 0.98 (7) |
Na—O1xxiii | 2.563 (7) | C2D—C2Cxxxiii | 0.98 (7) |
Na—O1xxiv | 2.563 (7) | C2D—C2Cxxviii | 1.54 (6) |
Na—O1xxv | 2.563 (7) | C2D—C2Cxxxi | 1.54 (6) |
Na—O1xxvi | 2.563 (7) | C2D—C2Dxxxvi | 0.84 (12) |
Na—C2Dxxvii | 2.84 (8) | C2D—C2Dxxxvii | 0.84 (12) |
Na—C2Dxxviii | 2.84 (8) | C2D—C2E | 1.66 (11) |
Na—C2Dxxix | 2.84 (8) | C2D—C2Exxxvii | 1.08 (9) |
Na—C2Dxxx | 2.84 (8) | C2D—C2Exxxvi | 1.08 (9) |
Na—C2Dvi | 2.84 (8) | C2E—C2Bxxxii | 1.53 (9) |
Na—C2Dxxxi | 2.84 (8) | C2E—C2Bvi | 1.13 (8) |
C2A—C2Bxxxii | 1.3 (3) | C2E—C2Cviii | 0.87 (5) |
C2A—C2Bvi | 1.3 (3) | C2E—C2Cxxxi | 1.49 (6) |
C2A—C2Bxxxiii | 1.3 (3) | C2E—C2Cvii | 0.87 (5) |
C2A—C2Cvii | 1.00 (10) | C2E—C2Cxxviii | 1.49 (6) |
C2A—C2C | 1.00 (10) | C2E—C2Dxxxvii | 1.08 (9) |
C2A—C2Cviii | 1.00 (10) | C2E—C2Dxxxvi | 1.08 (9) |
C2A—C2Dxxxiii | 1.48 (17) | C2E—C2Evii | 0.89 (18) |
C2A—C2Dxxxiv | 1.48 (17) | C2E—C2Eviii | 0.89 (18) |
O1i—Si1—O1ii | 108.7 (5) | C2Dxxxi—C2B—C2Cxxxiii | 111 (10) |
O1i—Si1—O3iv | 109.9 (2) | C2Dxxxi—C2B—C2Cxxxii | 93 (6) |
O1ii—Si1—O3iv | 109.9 (2) | C2Dxxviii—C2B—C2Cxxxv | 93 (6) |
O1ii—Si1—Navi | 96.77 (6) | C2Dxxxi—C2B—C2Cxxxvii | 111 (10) |
O1ii—Si1—Nav | 54.4 (3) | C2Dxxviii—C2B—C2Cxxxii | 111 (10) |
O1i—Si1—Navi | 96.77 (6) | C2Dxxviii—C2B—C2Cxxxiv | 51 (5) |
O1i—Si1—Nav | 54.4 (3) | C2Dvi—C2B—C2Cxxxii | 51 (5) |
O2iii—Si1—O1ii | 108.8 (2) | C2Dvi—C2B—C2Cxxxvii | 93 (6) |
O2iii—Si1—O1i | 108.8 (2) | C2Dxxxi—C2B—C2Cxxxvi | 51 (5) |
O2iii—Si1—O3iv | 110.6 (5) | C2Dxxxi—C2B—C2Cxxxiv | 93 (6) |
O2iii—Si1—Navi | 134.7 (3) | C2Dxxxi—C2B—C2Cxxxv | 51 (5) |
O2iii—Si1—Nav | 125.8 (3) | C2Dxxviii—C2B—C2Cxxxvii | 51 (5) |
O3iv—Si1—Nav | 123.6 (3) | C2Dxxviii—C2B—C2Cxxxiii | 93 (6) |
O3iv—Si1—Navi | 24.1 (3) | C2Dxxviii—C2B—C2Cxxxvi | 111 (10) |
Nav—Si1—Navi | 99.41 (3) | C2Dxxxi—C2B—C2Dvi | 61 (10) |
O2vii—Si2—O2 | 110.4 (3) | C2Dxxviii—C2B—C2Dxxxi | 61 (10) |
O2vii—Si2—O2viii | 110.4 (3) | C2Dxxviii—C2B—C2Dvi | 61 (10) |
O2viii—Si2—O2 | 110.4 (3) | C2Dvi—C2B—C2Evi | 116 (10) |
O2—Si2—Naix | 96.4 (3) | C2Dxxviii—C2B—C2Exxxi | 65 (6) |
O2viii—Si2—Naix | 26.2 (3) | C2Dxxxi—C2B—C2Evi | 65 (6) |
O2vii—Si2—Navi | 96.4 (3) | C2Dxxviii—C2B—C2Exxviii | 116 (10) |
O2viii—Si2—Nax | 96.4 (3) | C2Dvi—C2B—C2Exxviii | 65 (6) |
O2viii—Si2—Navi | 96.4 (3) | C2Dxxxi—C2B—C2Exxviii | 65 (6) |
O2vii—Si2—Naix | 96.4 (3) | C2Dvi—C2B—C2Exxxi | 65 (6) |
O2vii—Si2—Nax | 26.2 (3) | C2Dxxxi—C2B—C2Exxxi | 116 (10) |
O2—Si2—Navi | 26.2 (3) | C2Dxxviii—C2B—C2Evi | 65 (6) |
O2—Si2—Nax | 96.4 (3) | C2Exxviii—C2B—C2Cxxxiii | 77 (3) |
O4—Si2—O2viii | 108.6 (3) | C2Exxviii—C2B—C2Cxxxii | 42 (2) |
O4—Si2—O2 | 108.6 (3) | C2Exxviii—C2B—C2Cxxxvii | 157 (9) |
O4—Si2—O2vii | 108.6 (3) | C2Exxviii—C2B—C2Cxxxiv | 157 (9) |
O4—Si2—Naix | 134.789 (17) | C2Evi—C2B—C2Cxxxii | 157 (9) |
O4—Si2—Nax | 134.789 (17) | C2Evi—C2B—C2Cxxxiv | 42 (2) |
O4—Si2—Navi | 134.789 (17) | C2Evi—C2B—C2Cxxxvi | 77 (3) |
Nax—Si2—Navi | 75.85 (3) | C2Evi—C2B—C2Cxxxv | 42 (2) |
Naix—Si2—Navi | 75.85 (3) | C2Exxxi—C2B—C2Cxxxvi | 157 (9) |
Nax—Si2—Naix | 75.85 (3) | C2Exxxi—C2B—C2Cxxxii | 77 (3) |
O4iii—Si3—O4 | 109.471 (1) | C2Exxviii—C2B—C2Cxxxv | 77 (3) |
O4iii—Si3—O4xii | 109.5 | C2Evi—C2B—C2Cxxxvii | 77 (3) |
O4xi—Si3—O4iii | 109.471 (1) | C2Exxxi—C2B—C2Cxxxv | 157 (9) |
O4xi—Si3—O4xii | 109.5 | C2Exxxi—C2B—C2Cxxxiii | 42 (2) |
O4xii—Si3—O4 | 109.471 (2) | C2Evi—C2B—C2Cxxxiii | 157 (9) |
O4xi—Si3—O4 | 109.471 (1) | C2Exxxi—C2B—C2Cxxxiv | 77 (3) |
Si1xiii—O1—Si1xiv | 168.8 (5) | C2Exxxi—C2B—C2Cxxxvii | 42 (2) |
Si1xiv—O1—Naxv | 95.6 (3) | C2Exxviii—C2B—C2Cxxxvi | 42 (2) |
Si1xiii—O1—Naxv | 95.6 (3) | C2Exxviii—C2B—C2Exxxi | 117 (5) |
Si1iii—O2—Navi | 36.8 (3) | C2Exxviii—C2B—C2Evi | 117 (5) |
Si2—O2—Si1iii | 178.8 (7) | C2Exxxi—C2B—C2Evi | 117 (5) |
Si2—O2—Navi | 144.5 (4) | C2A—C2C—C2Avi | 113 (10) |
Si1viii—O3—Si1xvi | 174.7 (7) | C2A—C2C—C2Bxxxii | 70 (10) |
Si1xvi—O3—Naix | 38.3 (2) | C2A—C2C—C2Bxxxiii | 70 (10) |
Si1viii—O3—Naxvii | 38.3 (2) | C2A—C2C—C2Dxxxiii | 96 (10) |
Si1xvi—O3—Naxvii | 147.0 (4) | C2A—C2C—C2Dxxxii | 96 (10) |
Si1viii—O3—Naix | 147.0 (4) | C2A—C2C—C2E | 4 (10) |
Naix—O3—Naxvii | 108.8 (2) | C2A—C2C—C2Exxxiv | 117 (10) |
Si2—O4—Si3 | 180.0 (11) | C2A—C2C—C2Exxxv | 117 (10) |
Si1xviii—Na—Si1xix | 119.973 (2) | C2Bxxxii—C2C—C2Avi | 52 (9) |
Si1xviii—Na—Si1xx | 180.0 | C2Bxxxiii—C2C—C2Avi | 52 (9) |
Si1xx—Na—Si1xix | 60.027 (2) | C2Bxxxiii—C2C—C2Bxxxii | 57 (10) |
O1xxiv—Na—Si1xix | 30.013 (1) | C2Bxxxiii—C2C—C2Exxxv | 67 (5) |
O1xxii—Na—Si1xx | 149.987 (1) | C2Bxxxii—C2C—C2E | 67 (5) |
O1xxv—Na—Si1xix | 90.0 | C2Bxxxiii—C2C—C2E | 67 (5) |
O1xxi—Na—Si1xx | 90.0 | C2Bxxxii—C2C—C2Exxxiv | 67 (5) |
O1xxiv—Na—Si1xx | 30.013 (1) | C2Bxxxii—C2C—C2Exxxv | 48 (3) |
O1xxiii—Na—Si1xx | 149.987 (1) | C2Bxxxiii—C2C—C2Exxxiv | 48 (3) |
O1xxii—Na—Si1xix | 90.0 | C2Cvi—C2C—C2Avi | 24 (10) |
O1xxi—Na—Si1xix | 30.013 (1) | C2Cvi—C2C—C2A | 137 (10) |
O1xxv—Na—Si1xviii | 149.987 (1) | C2Cvi—C2C—C2Bxxxii | 72 (2) |
O1xxv—Na—Si1xx | 30.013 (1) | C2Cvi—C2C—C2Bxxxiii | 72 (2) |
O1xxiv—Na—Si1xviii | 149.987 (1) | C2Cvi—C2C—C2Dxxxii | 67 (4) |
O1xxi—Na—Si1xviii | 90.0 | C2Cvi—C2C—C2Dxxxiii | 67 (3) |
O1xxvi—Na—Si1xx | 90.0 | C2Cvi—C2C—C2E | 133 (4) |
O1xxiii—Na—Si1xix | 149.987 (1) | C2Cvi—C2C—C2Evii | 132 (7) |
O1xxvi—Na—Si1xviii | 90.0 | C2Cvi—C2C—C2Exxxv | 26 (3) |
O1xxii—Na—Si1xviii | 30.013 (1) | C2Cvi—C2C—C2Exxxiv | 26 (3) |
O1xxvi—Na—Si1xix | 149.987 (1) | C2Cvi—C2C—C2Eviii | 132 (7) |
O1xxiii—Na—Si1xviii | 30.013 (1) | C2Dxxxii—C2C—C2Avi | 63 (4) |
O1xxv—Na—O1xxiv | 60.0 | C2Dxxxiii—C2C—C2Avi | 63 (4) |
O1xxvi—Na—O1xxiv | 120.0 | C2Dxxxiii—C2C—C2Bxxxii | 41 (6) |
O1xxi—Na—O1xxiii | 120.0 | C2Dxxxiii—C2C—C2Bxxxiii | 95 (10) |
O1xxii—Na—O1xxv | 180.0 | C2Dxxxii—C2C—C2Bxxxii | 95 (10) |
O1xxii—Na—O1xxiv | 120.0 | C2Dxxxii—C2C—C2Bxxxiii | 41 (6) |
O1xxvi—Na—O1xxv | 60.0 | C2Dxxxiii—C2C—C2Dxxxii | 125 (9) |
O1xxi—Na—O1xxii | 60.0 | C2Dxxxii—C2C—C2Exxxiv | 46 (5) |
O1xxvi—Na—O1xxiii | 60.0 | C2Dxxxii—C2C—C2E | 94 (5) |
O1xxv—Na—O1xxiii | 120.0 | C2Dxxxii—C2C—C2Exxxv | 80 (6) |
O1xxvi—Na—O1xxi | 180.0 | C2Dxxxiii—C2C—C2Exxxv | 46 (5) |
O1xxiv—Na—O1xxiii | 180.0 | C2Dxxxiii—C2C—C2E | 94 (5) |
O1xxvi—Na—O1xxii | 120.0 | C2Dxxxiii—C2C—C2Exxxiv | 80 (6) |
O1xxii—Na—O1xxiii | 60.0 | C2Evii—C2C—C2A | 31 (8) |
O1xxi—Na—O1xxv | 120.0 | C2Exxxiv—C2C—C2Avi | 18 (5) |
O1xxi—Na—O1xxiv | 60.0 | C2Eviii—C2C—C2A | 31 (8) |
O1xxiv—Na—C2Dxxvii | 98.5 (13) | C2Eviii—C2C—C2Avi | 113 (8) |
O1xxi—Na—C2Dxxx | 98.5 (13) | C2E—C2C—C2Avi | 109 (10) |
O1xxvi—Na—C2Dxxxi | 98.5 (13) | C2Evii—C2C—C2Avi | 113 (8) |
O1xxiii—Na—C2Dxxvii | 81.5 (13) | C2Exxxv—C2C—C2Avi | 18 (5) |
O1xxii—Na—C2Dxxix | 90.000 (7) | C2Eviii—C2C—C2Bxxxiii | 90 (9) |
O1xxi—Na—C2Dxxix | 81.5 (13) | C2Evii—C2C—C2Bxxxiii | 61 (6) |
O1xxiv—Na—C2Dxxxi | 90.000 (10) | C2Eviii—C2C—C2Bxxxii | 61 (6) |
O1xxv—Na—C2Dxxix | 90.000 (3) | C2Evii—C2C—C2Bxxxii | 90 (9) |
O1xxv—Na—C2Dxxviii | 90.000 (7) | C2Evii—C2C—C2Dxxxiii | 125 (10) |
O1xxiii—Na—C2Dxxix | 98.5 (13) | C2Eviii—C2C—C2Dxxxiii | 71 (7) |
O1xxii—Na—C2Dxxvii | 81.5 (13) | C2Eviii—C2C—C2Dxxxii | 125 (10) |
O1xxi—Na—C2Dxxxi | 81.5 (13) | C2Evii—C2C—C2Dxxxii | 71 (7) |
O1xxv—Na—C2Dxxvii | 98.5 (13) | C2Evii—C2C—C2Eviii | 61 (10) |
O1xxv—Na—C2Dxxxi | 98.5 (13) | C2Evii—C2C—C2E | 31 (7) |
O1xxiii—Na—C2Dxxxi | 90.000 (2) | C2Eviii—C2C—C2E | 31 (7) |
O1xxii—Na—C2Dxxx | 98.5 (13) | C2Exxxiv—C2C—C2E | 113 (7) |
O1xxv—Na—C2Dxxx | 81.5 (13) | C2Exxxv—C2C—C2E | 113 (7) |
O1xxvi—Na—C2Dvi | 90.000 (5) | C2Exxxiv—C2C—C2Exxxv | 35 (8) |
O1xxvi—Na—C2Dxxx | 81.5 (13) | C2Evii—C2C—C2Exxxv | 126 (10) |
O1xxi—Na—C2Dvi | 90.000 (8) | C2Eviii—C2C—C2Exxxv | 106 (9) |
O1xxiv—Na—C2Dxxix | 81.5 (13) | C2Evii—C2C—C2Exxxiv | 106 (9) |
O1xxii—Na—C2Dvi | 98.5 (13) | C2Eviii—C2C—C2Exxxiv | 126 (10) |
O1xxiv—Na—C2Dxxx | 90.000 (2) | C2Axxxii—C2D—C2Axxxiii | 98 (10) |
O1xxv—Na—C2Dvi | 81.5 (13) | C2Axxxiii—C2D—C2Cxxviii | 115 (10) |
O1xxvi—Na—C2Dxxix | 98.5 (13) | C2Axxxiii—C2D—C2Cxxxi | 39 (3) |
O1xxiv—Na—C2Dvi | 81.5 (13) | C2Axxxii—C2D—C2Cxxxi | 115 (10) |
O1xxiii—Na—C2Dxxx | 90.000 (10) | C2Axxxii—C2D—C2Cxxviii | 39 (3) |
O1xxiii—Na—C2Dvi | 98.5 (13) | C2Axxxiii—C2D—C2E | 85 (8) |
O1xxii—Na—C2Dxxxi | 81.5 (13) | C2Axxxii—C2D—C2E | 85 (8) |
O1xxvi—Na—C2Dxxviii | 81.5 (13) | C2Bvi—C2D—C2Axxxiii | 63 (10) |
O1xxvi—Na—C2Dxxvii | 90.000 (8) | C2Bvi—C2D—C2Axxxii | 63 (10) |
O1xxii—Na—C2Dxxviii | 90.000 (3) | C2Bvi—C2D—C2Cxxxiii | 88 (8) |
O1xxiv—Na—C2Dxxviii | 98.5 (13) | C2Bvi—C2D—C2Cxxviii | 55 (4) |
O1xxi—Na—C2Dxxviii | 98.5 (13) | C2Bvi—C2D—C2Cxxxii | 88 (8) |
O1xxi—Na—C2Dxxvii | 90.000 (4) | C2Bvi—C2D—C2Cxxxi | 55 (4) |
O1xxiii—Na—C2Dxxviii | 81.5 (13) | C2Bvi—C2D—C2Exxxvii | 72 (6) |
C2Dxxx—Na—Si1xx | 86.0 (7) | C2Bvi—C2D—C2E | 38 (7) |
C2Dxxvii—Na—Si1xx | 100.7 (15) | C2Bvi—C2D—C2Exxxvi | 72 (6) |
C2Dxxvii—Na—Si1xviii | 79.3 (15) | C2Cxxxii—C2D—C2Axxxiii | 81 (7) |
C2Dxxx—Na—Si1xix | 94.0 (7) | C2Cxxxiii—C2D—C2Axxxiii | 42 (5) |
C2Dxxx—Na—Si1xviii | 94.0 (7) | C2Cxxxiii—C2D—C2Axxxii | 81 (7) |
C2Dvi—Na—Si1xx | 79.3 (15) | C2Cxxxii—C2D—C2Axxxii | 42 (5) |
C2Dvi—Na—Si1xviii | 100.7 (15) | C2Cxxxiii—C2D—C2Cxxxii | 45 (7) |
C2Dxxix—Na—Si1xix | 79.3 (15) | C2Cxxxii—C2D—C2Cxxviii | 81 (6) |
C2Dxxxi—Na—Si1xix | 86.0 (7) | C2Cxxxiii—C2D—C2Cxxviii | 117 (7) |
C2Dxxviii—Na—Si1xviii | 86.0 (7) | C2Cxxviii—C2D—C2Cxxxi | 105 (6) |
C2Dxxvii—Na—Si1xix | 94.0 (7) | C2Cxxxiii—C2D—C2Cxxxi | 81 (6) |
C2Dvi—Na—Si1xix | 86.0 (7) | C2Cxxxii—C2D—C2Cxxxi | 117 (7) |
C2Dxxix—Na—Si1xx | 86.0 (7) | C2Cxxxii—C2D—C2Exxxvi | 50 (4) |
C2Dxxix—Na—Si1xviii | 94.0 (7) | C2Cxxviii—C2D—C2E | 55 (3) |
C2Dxxviii—Na—Si1xx | 94.0 (7) | C2Cxxxiii—C2D—C2Exxxvi | 93 (7) |
C2Dxxviii—Na—Si1xix | 100.7 (15) | C2Cxxxiii—C2D—C2Exxxvii | 50 (4) |
C2Dxxxi—Na—Si1xviii | 86.0 (7) | C2Cxxxiii—C2D—C2E | 122 (8) |
C2Dxxxi—Na—Si1xx | 94.0 (7) | C2Cxxxii—C2D—C2E | 122 (8) |
C2Dxxix—Na—C2Dxxx | 17 (3) | C2Cxxxi—C2D—C2E | 55 (3) |
C2Dxxxi—Na—C2Dvi | 17 (3) | C2Cxxxii—C2D—C2Exxxvii | 93 (7) |
C2Dxxvii—Na—C2Dvi | 180.0 | C2Dxxxvi—C2D—C2Axxxii | 118 (10) |
C2Dxxviii—Na—C2Dxxx | 163 (3) | C2Dxxxvi—C2D—C2Axxxiii | 74 (3) |
C2Dxxx—Na—C2Dvi | 163 (3) | C2Dxxxvii—C2D—C2Axxxiii | 118 (10) |
C2Dxxviii—Na—C2Dxxxi | 17 (3) | C2Dxxxvii—C2D—C2Axxxii | 74 (3) |
C2Dxxix—Na—C2Dvi | 163 (3) | C2Dxxxvii—C2D—C2Bvi | 60 (6) |
C2Dxxxi—Na—C2Dxxx | 180.0 | C2Dxxxvi—C2D—C2Bvi | 60 (6) |
C2Dxxviii—Na—C2Dxxix | 180.0 (17) | C2Dxxxvi—C2D—C2Cxxxii | 145 (6) |
C2Dxxx—Na—C2Dxxvii | 17 (3) | C2Dxxxvi—C2D—C2Cxxxiii | 116 (5) |
C2Dxxix—Na—C2Dxxxi | 163 (3) | C2Dxxxvi—C2D—C2Cxxxi | 35 (3) |
C2Dxxviii—Na—C2Dvi | 17 (3) | C2Dxxxvii—C2D—C2Cxxviii | 35 (3) |
C2Dxxix—Na—C2Dxxvii | 17 (3) | C2Dxxxvii—C2D—C2Cxxxiii | 145 (6) |
C2Dxxviii—Na—C2Dxxvii | 163 (3) | C2Dxxxvii—C2D—C2Cxxxii | 116 (5) |
C2Dxxxi—Na—C2Dxxvii | 163 (3) | C2Dxxxvi—C2D—C2Cxxviii | 89 (3) |
C2Bxxxiii—C2A—C2Bvi | 54 (10) | C2Dxxxvii—C2D—C2Cxxxi | 89 (3) |
C2Bxxxii—C2A—C2Bvi | 54 (10) | C2Dxxxvi—C2D—C2Dxxxvii | 60.01 (3) |
C2Bxxxii—C2A—C2Bxxxiii | 54 (10) | C2Dxxxvii—C2D—C2E | 33.9 (19) |
C2Bvi—C2A—C2Dxxxv | 73 (10) | C2Dxxxvi—C2D—C2Exxxvii | 67 (4) |
C2Bxxxii—C2A—C2Dxxxiii | 34 (6) | C2Dxxxvi—C2D—C2E | 33.9 (19) |
C2Bxxxiii—C2A—C2Dxxxv | 88 (10) | C2Dxxxvii—C2D—C2Exxxvii | 120 (5) |
C2Bvi—C2A—C2Dxxxiv | 73 (10) | C2Dxxxvi—C2D—C2Exxxvi | 120 (5) |
C2Bxxxii—C2A—C2Dxxxiv | 88 (10) | C2Dxxxvii—C2D—C2Exxxvi | 67 (4) |
C2Bxxxii—C2A—C2Dxxxv | 34 (6) | C2Exxxvii—C2D—C2Axxxii | 113 (10) |
C2Bxxxiii—C2A—C2Dxxxiv | 34 (6) | C2Exxxvii—C2D—C2Axxxiii | 15 (10) |
C2Bvi—C2A—C2Dxxxiii | 88 (10) | C2Exxxvi—C2D—C2Axxxiii | 113 (10) |
C2Bxxxiii—C2A—C2Dxxxiii | 73 (10) | C2Exxxvi—C2D—C2Axxxii | 15 (10) |
C2Cvii—C2A—C2Bxxxii | 64 (10) | C2Exxxvi—C2D—C2Cxxviii | 33 (3) |
C2Cviii—C2A—C2Bxxxiii | 64 (10) | C2Exxxvi—C2D—C2Cxxxi | 126 (8) |
C2Cvii—C2A—C2Bxxxiii | 110 (10) | C2Exxxvii—C2D—C2Cxxxi | 33 (3) |
C2C—C2A—C2Bxxxiii | 64 (10) | C2Exxxvii—C2D—C2Cxxviii | 126 (8) |
C2Cviii—C2A—C2Bxxxii | 110 (10) | C2Exxxvi—C2D—C2Exxxvii | 127 (10) |
C2C—C2A—C2Bxxxii | 64 (10) | C2Exxxvii—C2D—C2E | 87 (6) |
C2C—C2A—C2Bvi | 110 (10) | C2Exxxvi—C2D—C2E | 87 (6) |
C2Cviii—C2A—C2Bvi | 64 (10) | C2A—C2E—C2Bxxxii | 56 (10) |
C2Cvii—C2A—C2Bvi | 64 (10) | C2A—C2E—C2Bvi | 100 (10) |
C2Cvii—C2A—C2C | 116 (10) | C2A—C2E—C2Cxxviii | 98 (10) |
C2Cviii—C2A—C2C | 116 (10) | C2A—C2E—C2Cviii | 89 (10) |
C2Cviii—C2A—C2Cvii | 116 (10) | C2A—C2E—C2Cvii | 89 (10) |
C2C—C2A—C2Dxxxiii | 42 (7) | C2A—C2E—C2Cxxxi | 98 (10) |
C2C—C2A—C2Dxxxiv | 74 (10) | C2A—C2E—C2C | 8 (10) |
C2Cvii—C2A—C2Dxxxv | 42 (7) | C2A—C2E—C2Dxxxvi | 134 (10) |
C2Cviii—C2A—C2Dxxxiv | 42 (7) | C2A—C2E—C2Dxxxvii | 134 (10) |
C2Cviii—C2A—C2Dxxxv | 137 (10) | C2A—C2E—C2Evii | 30.0 (9) |
C2Cvii—C2A—C2Dxxxiv | 137 (10) | C2A—C2E—C2Eviii | 30.0 (8) |
C2Cvii—C2A—C2Dxxxiii | 74 (10) | C2Bvi—C2E—C2Bxxxii | 51 (10) |
C2Cviii—C2A—C2Dxxxiii | 137 (10) | C2Bvi—C2E—C2Cxxviii | 55 (3) |
C2C—C2A—C2Dxxxv | 74 (10) | C2Bvi—C2E—C2Cxxxi | 55 (3) |
C2Dxxxiv—C2A—C2Dxxxv | 122 (10) | C2Bvi—C2E—C2C | 92 (9) |
C2Dxxxiv—C2A—C2Dxxxiii | 101 (10) | C2Bvi—C2E—C2Dxxxvii | 44 (6) |
C2Dxxxv—C2A—C2Dxxxiii | 33 (6) | C2Bvi—C2E—C2Dxxxvi | 44 (6) |
C2Eviii—C2A—C2Bxxxiii | 105 (10) | C2C—C2E—C2Bxxxii | 49 (4) |
C2Evii—C2A—C2Bvi | 105 (10) | C2Cviii—C2E—C2Bvi | 77 (7) |
C2E—C2A—C2Bxxxii | 105 (10) | C2Cviii—C2E—C2Bxxxii | 101 (9) |
C2E—C2A—C2Bvi | 58 (10) | C2Cxxxi—C2E—C2Bxxxii | 49 (3) |
C2Evii—C2A—C2Bxxxiii | 58 (10) | C2Cvii—C2E—C2Bxxxii | 55 (7) |
C2Evii—C2A—C2Bxxxii | 105 (10) | C2Cvii—C2E—C2Bvi | 77 (7) |
C2Eviii—C2A—C2Bvi | 105 (10) | C2Cxxviii—C2E—C2Bxxxii | 90 (6) |
C2Eviii—C2A—C2Bxxxii | 58 (10) | C2Cvii—C2E—C2C | 87 (7) |
C2E—C2A—C2Bxxxiii | 105 (10) | C2Cvii—C2E—C2Cviii | 153 (10) |
C2E—C2A—C2C | 167 (10) | C2Cviii—C2E—C2C | 87 (7) |
C2Evii—C2A—C2C | 61 (9) | C2Cxxviii—C2E—C2Cxxxi | 111 (7) |
C2Eviii—C2A—C2Cviii | 167 (10) | C2Cviii—C2E—C2Cxxxi | 132 (9) |
C2Eviii—C2A—C2Cvii | 61 (9) | C2Cxxxi—C2E—C2C | 93 (5) |
C2Eviii—C2A—C2C | 61 (9) | C2Cvii—C2E—C2Cxxxi | 22 (5) |
C2Evii—C2A—C2Cviii | 61 (9) | C2Cvii—C2E—C2Cxxviii | 132 (9) |
C2E—C2A—C2Cvii | 61 (9) | C2Cviii—C2E—C2Cxxviii | 22 (5) |
C2Evii—C2A—C2Cvii | 167 (10) | C2Cxxviii—C2E—C2C | 93 (5) |
C2E—C2A—C2Cviii | 61 (9) | C2Cviii—C2E—C2Dxxxvi | 104 (9) |
C2Evii—C2A—C2Dxxxv | 132 (10) | C2Cvii—C2E—C2Dxxxvii | 104 (9) |
C2E—C2A—C2Dxxxiv | 100 (10) | C2Cviii—C2E—C2Dxxxvii | 60 (6) |
C2Eviii—C2A—C2Dxxxiv | 132 (10) | C2Cvii—C2E—C2Dxxxvi | 60 (6) |
C2Evii—C2A—C2Dxxxiii | 100 (10) | C2Cviii—C2E—C2Eviii | 118 (7) |
C2E—C2A—C2Dxxxv | 100 (10) | C2Cvii—C2E—C2Eviii | 59 (7) |
C2Evii—C2A—C2Dxxxiv | 32 (10) | C2Cvii—C2E—C2Evii | 118 (7) |
C2E—C2A—C2Dxxxiii | 132 (10) | C2Cviii—C2E—C2Evii | 59 (7) |
C2Eviii—C2A—C2Dxxxv | 32 (10) | C2Dxxxvi—C2E—C2Bxxxii | 77 (6) |
C2Eviii—C2A—C2Dxxxiii | 32 (10) | C2Dxxxvii—C2E—C2Bxxxii | 95 (9) |
C2Evii—C2A—C2Eviii | 120.0 (18) | C2Dxxxvi—C2E—C2Cxxxi | 41 (4) |
C2Evii—C2A—C2E | 120.0 (17) | C2Dxxxvi—C2E—C2C | 126 (8) |
C2Eviii—C2A—C2E | 120.0 (18) | C2Dxxxvii—C2E—C2C | 126 (8) |
C2Cxxxvii—C2B—C2Cxxxiv | 35 (5) | C2Dxxxvii—C2E—C2Cxxviii | 41 (4) |
C2Cxxxvi—C2B—C2Cxxxiv | 119.3 (17) | C2Dxxxvi—C2E—C2Cxxviii | 84 (6) |
C2Cxxxvii—C2B—C2Cxxxii | 119.3 (17) | C2Dxxxvii—C2E—C2Cxxxi | 84 (6) |
C2Cxxxvi—C2B—C2Cxxxii | 84 (5) | C2Dxxxvi—C2E—C2Dxxxvii | 46 (8) |
C2Cxxxvi—C2B—C2Cxxxvii | 153 (6) | C2Eviii—C2E—C2Bvi | 98 (7) |
C2Cxxxiv—C2B—C2Cxxxv | 84 (5) | C2Evii—C2E—C2Bvi | 98 (7) |
C2Cxxxvii—C2B—C2Cxxxiii | 84 (5) | C2Eviii—C2E—C2Bxxxii | 47 (5) |
C2Cxxxvi—C2B—C2Cxxxiii | 119.3 (18) | C2Evii—C2E—C2Bxxxii | 73 (3) |
C2Cxxxiii—C2B—C2Cxxxii | 35 (5) | C2Eviii—C2E—C2Cxxviii | 122 (4) |
C2Cxxxiv—C2B—C2Cxxxiii | 119.3 (17) | C2Eviii—C2E—C2C | 30.9 (9) |
C2Cxxxvi—C2B—C2Cxxxv | 35 (5) | C2Evii—C2E—C2C | 30.9 (9) |
C2Cxxxiv—C2B—C2Cxxxii | 153 (6) | C2Eviii—C2E—C2Cxxxi | 73 (4) |
C2Cxxxv—C2B—C2Cxxxiii | 153 (6) | C2Evii—C2E—C2Cxxxi | 122 (4) |
C2Cxxxv—C2B—C2Cxxxii | 119.3 (17) | C2Evii—C2E—C2Cxxviii | 73 (4) |
C2Cxxxvii—C2B—C2Cxxxv | 119.3 (17) | C2Eviii—C2E—C2Dxxxvi | 113 (5) |
C2Dvi—C2B—C2Cxxxv | 111 (10) | C2Evii—C2E—C2Dxxxvii | 113 (5) |
C2Dvi—C2B—C2Cxxxiii | 51 (5) | C2Evii—C2E—C2Dxxxvi | 142 (6) |
C2Dvi—C2B—C2Cxxxiv | 111 (10) | C2Eviii—C2E—C2Dxxxvii | 142 (6) |
C2Dvi—C2B—C2Cxxxvi | 93 (6) | C2Evii—C2E—C2Eviii | 60.00 (2) |
Symmetry codes: (i) y−1/4, −x, z+3/4; (ii) −x, y−1/4, z+3/4; (iii) −x+1/4, −y+1/4, z; (iv) −z+1/4, −y+1/4, x; (v) x−1/2, y−1/2, z; (vi) −x+3/4, −y+3/4, z; (vii) y, z, x; (viii) z, x, y; (ix) −y+1, x−1/4, z−1/4; (x) y−1/4, −x+1, z−1/4; (xi) −y+1/4, x, −z+1/4; (xii) y, −x+1/4, −z+1/4; (xiii) y, −z+3/4, −x−1/4; (xiv) −y, x+1/4, z−3/4; (xv) −y+1/2, x−1/4, z−3/4; (xvi) z, −y+1/4, −x+1/4; (xvii) x, y−1/2, z−1/2; (xviii) x+1/2, y+1/2, z; (xix) z, x+1/2, y+1/2; (xx) −x+1/2, −y+1/2, −z+1; (xxi) z+3/4, y+1/4, −x+1/2; (xxii) −x+1/2, y+1/4, z+3/4; (xxiii) y+1/4, −x+1/2, z+3/4; (xxiv) −y+3/4, x+1/2, −z+1/4; (xxv) x+1/2, −y+3/4, −z+1/4; (xxvi) −z+1/4, −y+3/4, x+1/2; (xxvii) x+1/4, y+1/4, −z+1; (xxviii) z, −y+3/4, −x+3/4; (xxix) −z+1, y+1/4, x+1/4; (xxx) x+1/4, −z+1, y+1/4; (xxxi) −x+3/4, z, −y+3/4; (xxxii) y, −x+3/4, −z+3/4; (xxxiii) −y+3/4, x, −z+3/4; (xxxiv) −z+3/4, −y+3/4, x; (xxxv) −x+3/4, −z+3/4, y; (xxxvi) y, −z+3/4, −x+3/4; (xxxvii) −z+3/4, x, −y+3/4. |
0.02(C16O272Si136)·0.02(C30.01) | F(000) = 4301 |
Mr = 143.59 | Dx = 1.953 Mg m−3 |
Monoclinic, A2/n | Mo Kα radiation, λ = 0.71073 Å |
a = 23.7844 (3) Å | Cell parameters from 56079 reflections |
b = 13.732 (5) Å | θ = 3–67° |
c = 23.784 (3) Å | µ = 0.70 mm−1 |
β = 109.47° | T = 250 K |
V = 7324 (3) Å3 | Platelet |
Z = 60 |
StoeStadiVari diffractometer | θmax = 30.0°, θmin = 0.9° |
84218 measured reflections | h = −28→33 |
15703 independent reflections | k = −19→19 |
4876 reflections with I > 2σ(I) | l = −33→20 |
Rint = 0.162 |
Refinement on F2 | 210 parameters |
Least-squares matrix: full | 0 restraints |
R[F2 > 2σ(F2)] = 0.101 | w = 1/[σ2(Fo2) + (0.1P)2] where P = (Fo2 + 2Fc2)/3 |
wR(F2) = 0.280 | (Δ/σ)max = 1.361 |
S = 1.14 | Δρmax = 2.47 e Å−3 |
15703 reflections | Δρmin = −1.49 e Å−3 |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
Refinement. Refined as a 2-component twin. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1A | 0.00878 (9) | 1.0001 (3) | 0.14169 (9) | 0.01632 (15)* | |
Si1B | 0.18544 (17) | 0.2030 (2) | 0.25537 (16) | 0.01632 (15)* | |
Si1C | 0.18527 (17) | 0.7942 (2) | 0.25551 (16) | 0.01632 (15)* | |
Si1D | 0.99876 (17) | 0.3103 (3) | 0.43474 (15) | 0.01632 (15)* | |
Si1E | 0.99879 (17) | 0.6914 (3) | 0.43429 (15) | 0.01632 (15)* | |
Si1F | 0.18554 (16) | 0.8883 (2) | 0.56783 (16) | 0.01632 (15)* | |
Si1G | 0.18654 (16) | 0.1178 (2) | 0.56604 (16) | 0.01632 (15)* | |
Si1H | 0.18312 (16) | 0.3122 (2) | 0.37107 (15) | 0.01632 (15)* | |
Si1I | 0.18374 (16) | 0.6883 (2) | 0.37416 (15) | 0.01632 (15)* | |
Si1J | 0.12749 (9) | −0.0013 (3) | 0.25416 (9) | 0.01632 (15)* | |
Si1K | 0.11248 (17) | 0.8141 (2) | 0.43745 (15) | 0.01632 (15)* | |
Si1L | 0.11221 (17) | 0.1881 (3) | 0.43619 (15) | 0.01632 (15)* | |
Si2A | 0.89143 (9) | −0.0009 (3) | 0.17475 (9) | 0.01386 (19)* | |
Si2B | 0.10798 (16) | 0.6818 (2) | 0.14155 (15) | 0.01386 (19)* | |
Si2C | 0.89228 (16) | 0.1833 (2) | 0.35745 (15) | 0.01386 (19)* | |
Si2D | 0.07468 (8) | 0.0002 (3) | 0.35793 (8) | 0.01386 (19)* | |
Si3 | 0.93808 (8) | 0.9993 (3) | 0.31158 (9) | 0.0145 (3)* | |
O1A | 0.2500 | 0.2107 (12) | 0.2500 | 0.0427 (5)* | |
O1B | 0.2500 | 0.7869 (12) | 0.2500 | 0.0427 (5)* | |
O1C | 0.0058 (5) | 0.9069 (8) | 0.1016 (5) | 0.0427 (5)* | |
O1D | 0.2515 (6) | 0.8407 (9) | 0.5869 (5) | 0.0427 (5)* | |
O1E | 1.0001 (7) | 0.3356 (6) | 0.5002 (7) | 0.0427 (5)* | |
O1F | 0.3524 (6) | 0.6549 (8) | 0.4981 (5) | 0.0427 (5)* | |
O1G | 0.1479 (6) | 0.8431 (8) | 0.5040 (5) | 0.0427 (5)* | |
O1H | 0.1554 (6) | 0.2468 (9) | 0.4116 (5) | 0.0427 (5)* | |
O1I | 0.1683 (5) | 0.9062 (8) | 0.2546 (5) | 0.0427 (5)* | |
O1J | 0.1558 (6) | 0.7549 (8) | 0.4119 (5) | 0.0427 (5)* | |
O1K | 0.0076 (5) | 0.0955 (8) | 0.1038 (5) | 0.0427 (5)* | |
O1L | 0.2507 (6) | 0.1617 (9) | 0.5835 (5) | 0.0427 (5)* | |
O1M | 0.1689 (5) | 1.0912 (8) | 0.2561 (5) | 0.0427 (5)* | |
O2A | 0.1387 (6) | 0.7365 (9) | 0.2025 (6) | 0.0504 (6)* | |
O2B | 0.8623 (6) | 0.2475 (9) | 0.3008 (6) | 0.0504 (6)* | |
O2C | 0.8561 (6) | 0.9071 (9) | 0.1424 (6) | 0.0504 (6)* | |
O2D | 0.0601 (6) | 0.7477 (9) | 0.0956 (6) | 0.0504 (6)* | |
O2E | 0.9409 (6) | 0.2427 (9) | 0.4062 (6) | 0.0504 (6)* | |
O2F | 0.0851 (5) | 0.0975 (9) | 0.3945 (5) | 0.0504 (6)* | |
O2G | 0.8448 (6) | 0.1450 (9) | 0.3848 (6) | 0.0504 (6)* | |
O2H | 0.1119 (4) | 0.9975 (11) | 0.3142 (4) | 0.0504 (6)* | |
O2I | 0.0903 (5) | 0.9107 (9) | 0.4014 (5) | 0.0504 (6)* | |
O2J | 0.1563 (6) | 0.6534 (9) | 0.1135 (6) | 0.0504 (6)* | |
O2K | 0.8556 (6) | 0.0920 (9) | 0.1454 (6) | 0.0504 (6)* | |
O2L | 0.9546 (4) | 0.0007 (11) | 0.1661 (4) | 0.0504 (6)* | |
O3A | 0.0693 (3) | −0.0011 (10) | 0.1967 (3) | 0.0405 (7)* | |
O3B | 0.1896 (3) | 0.0005 (10) | 0.5645 (4) | 0.0405 (7)* | |
O3C | 0.9421 (6) | 0.2452 (8) | 0.0628 (5) | 0.0405 (7)* | |
O3D | 0.0571 (6) | 0.7474 (8) | 0.4374 (5) | 0.0405 (7)* | |
O3E | 0.1852 (6) | 0.7450 (8) | 0.3157 (5) | 0.0405 (7)* | |
O3F | 0.1855 (6) | 0.2548 (8) | 0.3153 (5) | 0.0405 (7)* | |
O4A | 0.0067 (4) | −0.0019 (11) | 0.3183 (4) | 0.0505 (11)* | |
O4B | 0.9319 (5) | 0.1012 (8) | 0.3415 (5) | 0.0505 (11)* | |
O4C | 0.8993 (4) | 0.9889 (9) | 0.2431 (4) | 0.0505 (11)* | |
O4D | 0.9230 (5) | 0.9172 (8) | 0.3496 (5) | 0.0505 (11)* | |
C1A | 0.0000 | 0.2500 | 0.2500 | 0.070 (9)* | |
C1B | 0.0000 | 0.2500 | 0.7500 | 0.074 (10)* | |
C1C | 0.7500 | −0.003 (3) | 0.2500 | 0.075 (6)* | |
C1D | 0.0000 | 0.0000 | 0.5000 | 0.062 (5)* | |
C2B | 0.302 (2) | 0.916 (4) | 0.400 (2) | 0.050* | 0.34 (4) |
C2C | 0.846 (2) | 0.041 (4) | 0.002 (2) | 0.050* | 0.34 (4) |
C2D | 0.2799 (19) | 0.072 (3) | 0.4197 (19) | 0.050* | 0.39 (4) |
C2E | 0.1774 (18) | 0.046 (3) | 0.1037 (17) | 0.050* | 0.43 (4) |
C2F | 0.125 (3) | 0.960 (5) | 0.094 (3) | 0.050* | 0.26 (4) |
C2G | 0.222 (4) | 0.623 (5) | 0.532 (4) | 0.050* | 0.21 (4) |
C2H | 0.249 (2) | 0.026 (3) | 0.427 (2) | 0.050* | 0.35 (4) |
C2I | 0.298 (2) | 0.017 (4) | 0.474 (2) | 0.050* | 0.32 (4) |
C2J | 0.2829 (15) | 0.929 (3) | 0.4504 (16) | 0.050* | 0.47 (4) |
C2K | 0.864 (3) | 0.526 (4) | 0.450 (3) | 0.050* | 0.28 (4) |
C2L | 0.8660 (19) | 0.478 (3) | 0.477 (2) | 0.050* | 0.36 (4) |
Si1A—O1C | 1.583 (12) | O2F—C1A | 3.957 (13) |
Si1A—O1Ki | 1.584 (12) | O2F—C1D | 3.946 (11) |
Si1A—O2Lii | 1.580 (9) | O2G—Si1Fxii | 1.595 (11) |
Si1A—O3Ai | 1.591 (8) | O2G—C1C | 3.83 (3) |
Si1A—C1Ai | 4.337 (4) | O2G—C1Dvii | 4.285 (14) |
Si1A—C1Biii | 4.340 (4) | O2H—Si1Ji | 1.590 (9) |
Si1B—O1A | 1.586 (4) | O2H—Si2Di | 1.575 (9) |
Si1B—O1Miv | 1.587 (12) | O2H—C1Ai | 4.328 (14) |
Si1B—O2Bv | 1.589 (14) | O2H—C1Biii | 4.272 (14) |
Si1B—O3F | 1.592 (11) | O2I—Si2Di | 1.569 (13) |
Si1B—C1A | 4.417 (4) | O2I—O3D | 2.614 (17) |
Si1B—C1Cv | 4.42 (4) | O2I—C1Biii | 4.159 (12) |
Si1C—O1B | 1.591 (4) | O2I—C1Di | 3.868 (11) |
Si1C—O1I | 1.589 (12) | O2J—Si1Giii | 1.603 (11) |
Si1C—O2A | 1.585 (14) | O2J—C1Cv | 3.86 (3) |
Si1C—O3E | 1.584 (11) | O2J—C1Diii | 4.341 (14) |
Si1C—C1Biii | 4.407 (4) | O2K—Si1Hv | 1.579 (13) |
Si1C—C1Cv | 4.30 (4) | O2K—C1Avii | 4.123 (14) |
Si1D—O1E | 1.584 (14) | O2K—C1C | 4.286 (17) |
Si1D—O1Kv | 1.564 (12) | O2L—Si1Axx | 1.580 (9) |
Si1D—O2E | 1.611 (14) | O2L—C1Avii | 3.929 (14) |
Si1D—O3Cvi | 1.585 (12) | O2L—C1Bxviii | 3.945 (14) |
Si1D—C1Avii | 4.481 (3) | O3A—Si1Aiv | 1.591 (8) |
Si1D—C1Dvii | 4.532 (4) | O3A—C1A | 4.196 (12) |
Si1E—O1Cviii | 1.582 (12) | O3A—C1Bxvii | 4.171 (12) |
Si1E—O1Eix | 1.594 (14) | O3B—Si1Fiv | 1.548 (14) |
Si1E—O2Dviii | 1.582 (14) | O3B—C1Cxv | 4.161 (8) |
Si1E—C1Bx | 4.466 (3) | O3B—C1D | 4.251 (8) |
Si1E—C1Dxi | 4.513 (4) | O3C—Si1Dvi | 1.585 (12) |
Si1F—O1D | 1.619 (13) | O3C—Si1Lv | 1.589 (12) |
Si1F—O1G | 1.608 (13) | O3C—C1Avii | 4.199 (12) |
Si1F—O2Gxii | 1.596 (11) | O3C—C1Dx | 4.212 (11) |
Si1F—O3Bi | 1.548 (14) | O3D—C1Biii | 4.205 (12) |
Si1F—C1Cxii | 4.381 (16) | O3D—C1Di | 4.176 (11) |
Si1F—C1Di | 4.437 (4) | O3E—C1Biii | 4.154 (12) |
Si1G—O1Fxiii | 1.582 (13) | O3E—C1Cv | 4.18 (4) |
Si1G—O1L | 1.562 (13) | O3F—C1A | 4.162 (12) |
Si1G—O2Jxiv | 1.604 (11) | O3F—C1Cv | 4.24 (4) |
Si1G—O3B | 1.613 (14) | O4A—Si3xxi | 1.585 (9) |
Si1G—C1Cxv | 4.414 (16) | O4A—C1A | 3.803 (15) |
Si1G—C1D | 4.486 (4) | O4A—C1Bxvii | 3.755 (15) |
Si1H—O1Dxiii | 1.592 (13) | O4A—C1D | 4.377 (9) |
Si1H—O1H | 1.610 (12) | O4B—Si3iv | 1.599 (12) |
Si1H—O2Kv | 1.579 (13) | O4B—C1Avii | 3.726 (10) |
Si1H—O3F | 1.560 (11) | O4B—C1C | 4.387 (18) |
Si1H—C1A | 4.431 (4) | O4B—C1Dvii | 3.833 (11) |
Si1H—C1Cv | 4.56 (2) | O4C—Si2Ai | 1.580 (10) |
Si1I—O1J | 1.575 (11) | O4C—C1Axi | 4.285 (12) |
Si1I—O1Lxvi | 1.592 (13) | O4C—C1Bx | 4.033 (12) |
Si1I—O2Cviii | 1.588 (13) | O4C—C1Ci | 3.610 (9) |
Si1I—O3E | 1.604 (11) | O4D—Si2Bviii | 1.594 (11) |
Si1I—C1Biii | 4.465 (4) | O4D—C1Bx | 4.139 (10) |
Si1I—C1Cv | 4.56 (2) | O4D—C1Ci | 4.150 (16) |
Si1J—O1Iiv | 1.597 (12) | O4D—C1Dxi | 3.616 (12) |
Si1J—O1Miv | 1.598 (12) | C1A—O1Kxxii | 4.128 (11) |
Si1J—O2Hiv | 1.590 (9) | C1A—O2Fxxii | 3.957 (13) |
Si1J—O3A | 1.587 (8) | C1A—O2Kv | 4.123 (14) |
Si1J—C1A | 4.573 (4) | C1A—O2Kxxiii | 4.123 (14) |
Si1J—C1Bxvii | 4.547 (4) | C1A—O2Lxxiii | 3.929 (14) |
Si1K—O1G | 1.576 (13) | C1A—O2Lv | 3.929 (14) |
Si1K—O1J | 1.583 (12) | C1A—O3Axxii | 4.196 (12) |
Si1K—O2I | 1.573 (13) | C1A—O4Axxii | 3.803 (15) |
Si1K—O3D | 1.603 (12) | C1A—O4Bv | 3.726 (10) |
Si1K—C1Biii | 4.456 (4) | C1A—O4Bxxiii | 3.726 (10) |
Si1K—C1Di | 4.306 (3) | C1B—O1Cxiv | 4.176 (11) |
Si1L—O1Fxiii | 1.575 (13) | C1B—O1Cxxiv | 4.176 (11) |
Si1L—O1H | 1.565 (12) | C1B—O2Axxiv | 3.832 (12) |
Si1L—O2F | 1.588 (13) | C1B—O2Axiv | 3.832 (12) |
Si1L—O3Cv | 1.589 (12) | C1B—O2Cxii | 4.132 (14) |
Si1L—C1A | 4.425 (4) | C1B—O2Cxxv | 4.132 (14) |
Si1L—C1D | 4.335 (3) | C1B—O2Ixiv | 4.159 (12) |
Si2A—O2Civ | 1.570 (14) | C1B—O2Ixxiv | 4.159 (12) |
Si2A—O2K | 1.563 (14) | C1B—O2Lxxvi | 3.945 (15) |
Si2A—O2L | 1.583 (9) | C1B—O2Lxv | 3.945 (15) |
Si2A—O4Civ | 1.579 (10) | C1B—O4Axxvii | 3.755 (15) |
Si2A—C1Avii | 4.320 (4) | C1B—O4Axxviii | 3.755 (15) |
Si2A—C1Bxviii | 4.300 (4) | C1B—O4Cxii | 4.033 (12) |
Si2A—C1C | 4.3050 (18) | C1B—O4Dxii | 4.139 (10) |
Si2B—O2A | 1.578 (13) | C1B—O4Dxxv | 4.139 (10) |
Si2B—O2D | 1.574 (14) | C1C—O1Av | 4.02 (5) |
Si2B—O2J | 1.558 (12) | C1C—O1Bv | 3.89 (5) |
Si2B—O4Dviii | 1.594 (11) | C1C—O2Axxix | 4.07 (4) |
Si2B—C1Biii | 4.306 (3) | C1C—O2Av | 4.07 (4) |
Si2B—C1Cv | 4.27 (2) | C1C—O2Gxxx | 3.83 (3) |
Si2B—C1Diii | 4.290 (4) | C1C—O3Bxv | 4.161 (8) |
Si2C—O2B | 1.569 (13) | C1C—O3Bxxxi | 4.161 (8) |
Si2C—O2E | 1.566 (14) | C1C—O3Ev | 4.18 (4) |
Si2C—O2G | 1.569 (12) | C1C—O3Exxix | 4.18 (4) |
Si2C—O4B | 1.593 (11) | C1C—O3Fv | 4.24 (4) |
Si2C—C1Avii | 4.278 (3) | C1C—O3Fxxix | 4.24 (4) |
Si2C—C1C | 4.33 (3) | C1C—O4Cxxxii | 3.610 (9) |
Si2C—C1Dvii | 4.313 (4) | C1C—O4Civ | 3.610 (9) |
Si2D—O2F | 1.568 (13) | C1D—O1Fxxxiii | 4.093 (12) |
Si2D—O2Hiv | 1.575 (9) | C1D—O1Giv | 4.100 (12) |
Si2D—O2Iiv | 1.569 (13) | C1D—O1Gxxiv | 4.100 (12) |
Si2D—O4A | 1.578 (10) | C1D—O2Dxxii | 4.077 (13) |
Si2D—C1A | 4.298 (4) | C1D—O2Dxiv | 4.077 (13) |
Si2D—C1Bxvii | 4.302 (4) | C1D—O2Fxxviii | 3.946 (11) |
Si2D—C1D | 4.3097 (18) | C1D—O2Iiv | 3.868 (11) |
Si3—O4Axi | 1.585 (9) | C1D—O2Ixxiv | 3.868 (11) |
Si3—O4Bi | 1.599 (12) | C1D—O3Dxxiv | 4.176 (11) |
Si3—O4C | 1.588 (10) | C1D—O3Div | 4.176 (11) |
Si3—O4D | 1.560 (11) | C1D—O4Bxv | 3.833 (11) |
Si3—C1Axi | 4.196 (4) | C1D—O4Bxxiii | 3.833 (11) |
Si3—C1Bx | 4.180 (4) | C1D—O4Dxxi | 3.616 (12) |
Si3—C1Ci | 4.218 (2) | C1D—O4Dxii | 3.616 (12) |
Si3—C1Dxi | 4.225 (2) | C2B—C2Fxix | 1.80 (8) |
O1A—Si1Bxix | 1.586 (4) | C2B—C2Hi | 2.20 (6) |
O1A—C1Cv | 4.02 (5) | C2B—C2Ii | 2.26 (7) |
O1B—Si1Cxix | 1.591 (4) | C2B—C2J | 1.42 (5) |
O1B—C1Cv | 3.89 (5) | C2C—C2Kxvii | 1.44 (7) |
O1C—Si1Eviii | 1.582 (12) | C2C—C2Lxvii | 1.22 (6) |
O1C—C1Biii | 4.176 (11) | C2D—C2Exix | 1.36 (5) |
O1D—Si1Hxvi | 1.592 (13) | C2D—C2Gxiii | 1.36 (8) |
O1D—C1Cxii | 4.49 (2) | C2D—C2H | 1.03 (6) |
O1E—Si1Eix | 1.594 (14) | C2D—C2I | 1.43 (6) |
O1F—Si1Gxvi | 1.582 (13) | C2D—C2Jiv | 2.09 (5) |
O1F—Si1Lxvi | 1.575 (13) | C2E—C2Dxix | 1.36 (5) |
O1F—C1Dxvi | 4.093 (12) | C2E—C2Fiv | 1.67 (7) |
O1G—C1Di | 4.100 (12) | C2E—C2Kv | 1.66 (7) |
O1H—C1A | 4.354 (13) | C2F—C2Bxix | 1.80 (8) |
O1I—Si1Ji | 1.597 (12) | C2F—C2Ei | 1.67 (7) |
O1I—C1Biii | 4.511 (11) | C2F—C2Kviii | 1.19 (8) |
O1J—C1Biii | 4.365 (13) | C2G—C2Dxvi | 1.36 (8) |
O1K—Si1Aiv | 1.584 (12) | C2G—C2Hxvi | 1.66 (9) |
O1K—Si1Dv | 1.564 (12) | C2G—C2Ixvi | 1.52 (9) |
O1K—C1A | 4.128 (11) | C2H—C2Biv | 2.20 (6) |
O1L—Si1Ixiii | 1.592 (13) | C2H—C2Gxiii | 1.66 (9) |
O1L—C1Cxv | 4.52 (2) | C2H—C2I | 1.33 (7) |
O1M—Si1Bi | 1.587 (12) | C2H—C2Jiv | 1.56 (6) |
O1M—Si1Ji | 1.598 (12) | C2I—C2Biv | 2.26 (7) |
O1M—C1Ai | 4.531 (11) | C2I—C2Gxiii | 1.52 (9) |
O2A—C1Biii | 3.832 (12) | C2I—C2Jiv | 1.33 (6) |
O2A—C1Cv | 4.07 (4) | C2I—C2Kxxxiii | 1.92 (7) |
O2B—Si1Bv | 1.589 (14) | C2J—C2Di | 2.09 (5) |
O2C—Si1Iviii | 1.588 (13) | C2J—C2Hi | 1.56 (6) |
O2C—Si2Ai | 1.570 (14) | C2J—C2Ii | 1.33 (6) |
O2C—C1Bx | 4.132 (14) | C2K—C2Cxxvii | 1.44 (7) |
O2C—C1Ci | 4.329 (16) | C2K—C2Ev | 1.66 (7) |
O2D—Si1Eviii | 1.582 (14) | C2K—C2Fviii | 1.19 (8) |
O2D—C1Biii | 4.362 (11) | C2K—C2Ixxix | 1.92 (7) |
O2D—C1Diii | 4.077 (13) | C2K—C2L | 0.91 (6) |
O2E—C1Avii | 4.391 (11) | C2L—C2Cxxvii | 1.22 (6) |
O2E—C1Dvii | 3.996 (13) | ||
O1C—Si1A—C1Ai | 174.7 (4) | O1K—C1A—O3A | 36.0 (2) |
O1C—Si1A—C1Biii | 73.5 (4) | O1Kxxii—C1A—O3Axxii | 36.0 (2) |
O1Ki—Si1A—O1C | 109.7 (4) | O1K—C1A—O3Axxii | 144.0 (2) |
O1Ki—Si1A—O3Ai | 108.5 (7) | O1Kxxii—C1A—O3A | 144.0 (2) |
O1Ki—Si1A—C1Ai | 71.8 (4) | O1K—C1A—O3F | 89.1 (2) |
O1Ki—Si1A—C1Biii | 175.1 (4) | O1Kxxii—C1A—O3F | 90.9 (2) |
O2Lii—Si1A—O1C | 110.3 (7) | O2F—C1A—O2Fxxii | 180.0 |
O2Lii—Si1A—O1Ki | 110.0 (7) | O2F—C1A—O2Kxxiii | 109.1 (3) |
O2Lii—Si1A—O3Ai | 108.9 (4) | O2Fxxii—C1A—O2Kv | 109.1 (3) |
O2Lii—Si1A—C1Ai | 64.6 (5) | O2F—C1A—O2Kv | 70.9 (3) |
O2Lii—Si1A—C1Biii | 65.1 (5) | O2Fxxii—C1A—O2Kxxiii | 70.9 (3) |
O3Ai—Si1A—O1C | 109.5 (7) | O2F—C1A—O3A | 71.8 (2) |
O3Ai—Si1A—C1Ai | 74.3 (5) | O2F—C1A—O3Axxii | 108.2 (2) |
O3Ai—Si1A—C1Biii | 73.3 (5) | O2Fxxii—C1A—O3Axxii | 71.8 (2) |
C1Ai—Si1A—C1Biii | 104.61 (5) | O2Fxxii—C1A—O3A | 108.2 (2) |
O1A—Si1B—O1Miv | 108.4 (8) | O2F—C1A—O3F | 60.8 (2) |
O1A—Si1B—O2Bv | 110.1 (5) | O2Fxxii—C1A—O3F | 119.2 (2) |
O1A—Si1B—C1A | 166.4 (6) | O2Kv—C1A—O2Kxxiii | 180.0 |
O1A—Si1B—C1Cv | 65.2 (6) | O2Kv—C1A—O3Axxii | 73.6 (2) |
O1Miv—Si1B—O2Bv | 108.2 (7) | O2Kv—C1A—O3A | 106.4 (2) |
O1Miv—Si1B—C1A | 83.9 (4) | O2Kxxiii—C1A—O3Axxii | 106.4 (2) |
O1Miv—Si1B—C1Cv | 173.6 (5) | O2Kxxiii—C1A—O3A | 73.6 (2) |
O2Bv—Si1B—C1A | 59.1 (4) | O2Kv—C1A—O3F | 36.9 (2) |
O2Bv—Si1B—C1Cv | 74.6 (5) | O2Kxxiii—C1A—O3F | 143.1 (2) |
O3F—Si1B—O1A | 109.2 (6) | O2Lxxiii—C1A—O1K | 37.4 (2) |
O3F—Si1B—O1Miv | 110.4 (6) | O2Lv—C1A—O1Kxxii | 37.4 (2) |
O3F—Si1B—O2Bv | 110.4 (6) | O2Lxxiii—C1A—O1Kxxii | 142.6 (2) |
O3F—Si1B—C1A | 70.4 (5) | O2Lv—C1A—O1K | 142.6 (2) |
O3F—Si1B—C1Cv | 73.3 (4) | O2Lxxiii—C1A—O2Fxxii | 92.6 (3) |
C1Cv—Si1B—C1A | 102.5 (2) | O2Lxxiii—C1A—O2F | 87.4 (3) |
O1B—Si1C—O2A | 109.9 (6) | O2Lv—C1A—O2Fxxii | 87.4 (3) |
O1B—Si1C—C1Biii | 167.0 (6) | O2Lv—C1A—O2F | 92.6 (3) |
O1B—Si1C—C1Cv | 64.7 (6) | O2Lv—C1A—O2Kv | 37.1 (2) |
O1I—Si1C—O1B | 107.9 (8) | O2Lxxiii—C1A—O2Kxxiii | 37.1 (2) |
O1I—Si1C—O2A | 111.5 (7) | O2Lxxiii—C1A—O2Kv | 142.9 (2) |
O1I—Si1C—C1Biii | 83.5 (4) | O2Lv—C1A—O2Kxxiii | 142.9 (2) |
O1I—Si1C—C1Cv | 172.4 (5) | O2Lv—C1A—O2Lxxiii | 180.0 (2) |
O2A—Si1C—C1Biii | 58.8 (4) | O2Lxxiii—C1A—O3A | 36.84 (18) |
O2A—Si1C—C1Cv | 70.9 (5) | O2Lv—C1A—O3A | 143.16 (18) |
O3E—Si1C—O1B | 109.9 (6) | O2Lv—C1A—O3Axxii | 36.84 (18) |
O3E—Si1C—O1I | 110.3 (6) | O2Lxxiii—C1A—O3Axxii | 143.16 (18) |
O3E—Si1C—O2A | 107.2 (6) | O2Lv—C1A—O3F | 73.7 (2) |
O3E—Si1C—C1Biii | 70.4 (5) | O2Lxxiii—C1A—O3F | 106.3 (2) |
O3E—Si1C—C1Cv | 74.9 (4) | O2Lxxiii—C1A—O4Bv | 106.3 (2) |
C1Cv—Si1C—C1Biii | 103.7 (2) | O2Lv—C1A—O4Bxxiii | 106.3 (2) |
O1E—Si1D—O2E | 105.9 (7) | O2Lxxiii—C1A—O4Bxxiii | 73.7 (2) |
O1E—Si1D—O3Cvi | 110.0 (7) | O2Lv—C1A—O4Bv | 73.7 (2) |
O1E—Si1D—C1Avii | 177.5 (5) | O3A—C1A—O3Axxii | 180.0 |
O1E—Si1D—C1Dvii | 82.8 (3) | O3A—C1A—O3F | 69.58 (19) |
O1Kv—Si1D—O1E | 111.2 (6) | O3Axxii—C1A—O3F | 110.42 (19) |
O1Kv—Si1D—O2E | 109.2 (7) | O4A—C1A—O1K | 83.4 (2) |
O1Kv—Si1D—O3Cvi | 109.3 (6) | O4Axxii—C1A—O1Kxxii | 83.4 (2) |
O1Kv—Si1D—C1Avii | 67.0 (4) | O4A—C1A—O1Kxxii | 96.6 (2) |
O1Kv—Si1D—C1Dvii | 165.3 (5) | O4Axxii—C1A—O1K | 96.6 (2) |
O2E—Si1D—O3Cvi | 111.2 (6) | O4A—C1A—O2F | 37.9 (2) |
O2E—Si1D—C1Avii | 76.4 (4) | O4Axxii—C1A—O2F | 142.1 (2) |
O2E—Si1D—C1Dvii | 60.6 (5) | O4A—C1A—O2Fxxii | 142.1 (2) |
O3Cvi—Si1D—C1Avii | 69.6 (4) | O4Axxii—C1A—O2Fxxii | 37.9 (2) |
O3Cvi—Si1D—C1Dvii | 68.3 (4) | O4Axxii—C1A—O2Kxxiii | 108.3 (2) |
C1Avii—Si1D—C1Dvii | 99.24 (7) | O4A—C1A—O2Kxxiii | 71.7 (2) |
O1Cviii—Si1E—O1Eix | 107.7 (6) | O4Axxii—C1A—O2Kv | 71.7 (2) |
O1Cviii—Si1E—C1Bx | 69.3 (4) | O4A—C1A—O2Kv | 108.3 (2) |
O1Cviii—Si1E—C1Dxi | 168.4 (5) | O4Axxii—C1A—O2Lxxiii | 127.6 (2) |
O1Eix—Si1E—C1Bx | 176.7 (4) | O4A—C1A—O2Lxxiii | 52.4 (2) |
O1Eix—Si1E—C1Dxi | 83.3 (3) | O4A—C1A—O2Lv | 127.6 (2) |
O2Dviii—Si1E—O1Cviii | 108.5 (7) | O4Axxii—C1A—O2Lv | 52.4 (2) |
O2Dviii—Si1E—O1Eix | 106.6 (7) | O4Axxii—C1A—O3A | 125.7 (2) |
O2Dviii—Si1E—C1Bx | 76.0 (4) | O4Axxii—C1A—O3Axxii | 54.3 (2) |
O2Dviii—Si1E—C1Dxi | 64.1 (5) | O4A—C1A—O3A | 54.3 (2) |
C1Bx—Si1E—C1Dxi | 99.76 (7) | O4A—C1A—O3Axxii | 125.7 (2) |
O1D—Si1F—O2Gxii | 108.1 (7) | O4A—C1A—O3F | 88.1 (2) |
O1D—Si1F—O3Bi | 110.3 (6) | O4Axxii—C1A—O3F | 91.9 (2) |
O1D—Si1F—C1Cxii | 83.2 (5) | O4A—C1A—O4Axxii | 180.0 |
O1D—Si1F—C1Di | 174.4 (5) | O4Axxii—C1A—O4Bxxiii | 141.6 (2) |
O1G—Si1F—O1D | 106.9 (6) | O4Axxii—C1A—O4Bv | 38.4 (2) |
O1G—Si1F—O2Gxii | 108.5 (6) | O4A—C1A—O4Bxxiii | 38.4 (2) |
O1G—Si1F—O3Bi | 111.1 (6) | O4A—C1A—O4Bv | 141.6 (2) |
O1G—Si1F—C1Cxii | 167.0 (4) | O4Bxxiii—C1A—O1Kxxii | 68.9 (2) |
O1G—Si1F—C1Di | 67.5 (4) | O4Bxxiii—C1A—O1K | 111.1 (2) |
O2Gxii—Si1F—C1Cxii | 59.7 (6) | O4Bv—C1A—O1K | 68.9 (2) |
O2Gxii—Si1F—C1Di | 74.1 (5) | O4Bv—C1A—O1Kxxii | 111.1 (2) |
O3Bi—Si1F—O2Gxii | 111.9 (5) | O4Bxxiii—C1A—O2F | 53.0 (2) |
O3Bi—Si1F—C1Cxii | 71.6 (6) | O4Bxxiii—C1A—O2Fxxii | 127.0 (2) |
O3Bi—Si1F—C1Di | 73.0 (3) | O4Bv—C1A—O2F | 127.0 (2) |
C1Cxii—Si1F—C1Di | 102.3 (2) | O4Bv—C1A—O2Fxxii | 53.0 (2) |
O1Fxiii—Si1G—O2Jxiv | 109.0 (6) | O4Bxxiii—C1A—O2Kxxiii | 68.1 (2) |
O1Fxiii—Si1G—C1Cxv | 165.3 (4) | O4Bxxiii—C1A—O2Kv | 111.9 (2) |
O1Fxiii—Si1G—C1D | 65.5 (4) | O4Bv—C1A—O2Kxxiii | 111.9 (2) |
O1L—Si1G—O1Fxiii | 109.7 (6) | O4Bv—C1A—O2Kv | 68.1 (2) |
O1L—Si1G—O2Jxiv | 108.9 (7) | O4Bv—C1A—O3A | 89.0 (2) |
O1L—Si1G—O3B | 110.1 (6) | O4Bxxiii—C1A—O3Axxii | 89.0 (2) |
O1L—Si1G—C1Cxv | 83.9 (5) | O4Bv—C1A—O3Axxii | 91.0 (2) |
O1L—Si1G—C1D | 175.1 (5) | O4Bxxiii—C1A—O3A | 91.0 (2) |
O2Jxiv—Si1G—C1Cxv | 59.7 (6) | O4Bv—C1A—O3F | 66.2 (2) |
O2Jxiv—Si1G—C1D | 74.5 (5) | O4Bxxiii—C1A—O3F | 113.8 (2) |
O3B—Si1G—O1Fxiii | 108.4 (6) | O4Bv—C1A—O4Bxxiii | 180.0 (3) |
O3B—Si1G—O2Jxiv | 110.7 (5) | O1Cxxiv—C1B—O1Cxiv | 180.0 |
O3B—Si1G—C1Cxv | 70.4 (6) | O1Cxxiv—C1B—O2Cxii | 57.4 (2) |
O3B—Si1G—C1D | 71.2 (3) | O1Cxiv—C1B—O2Cxxv | 57.4 (2) |
C1Cxv—Si1G—C1D | 101.0 (3) | O1Cxxiv—C1B—O2Cxxv | 122.6 (2) |
O1Dxiii—Si1H—C1A | 176.8 (5) | O1Cxiv—C1B—O2Cxii | 122.6 (2) |
O1Dxiii—Si1H—C1Cv | 77.4 (4) | O1Cxiv—C1B—O4Cxii | 105.5 (2) |
O1H—Si1H—O1Dxiii | 105.7 (6) | O1Cxxiv—C1B—O4Cxii | 74.5 (2) |
O1H—Si1H—O3F | 111.4 (6) | O2Axxiv—C1B—O1Cxxiv | 60.1 (2) |
O1H—Si1H—C1A | 76.8 (5) | O2Axxiv—C1B—O1Cxiv | 119.9 (2) |
O1H—Si1H—C1Cv | 176.5 (5) | O2Axiv—C1B—O1Cxiv | 60.1 (2) |
O2Kv—Si1H—O1Dxiii | 108.5 (7) | O2Axiv—C1B—O1Cxxiv | 119.9 (2) |
O2Kv—Si1H—O1H | 107.0 (6) | O2Axxiv—C1B—O2Axiv | 180.0 |
O2Kv—Si1H—O3F | 113.2 (7) | O2Axiv—C1B—O2Cxii | 62.7 (2) |
O2Kv—Si1H—C1A | 68.5 (5) | O2Axxiv—C1B—O2Cxxv | 62.7 (2) |
O2Kv—Si1H—C1Cv | 70.1 (6) | O2Axiv—C1B—O2Cxxv | 117.3 (2) |
O3F—Si1H—O1Dxiii | 110.7 (6) | O2Axxiv—C1B—O2Cxii | 117.3 (2) |
O3F—Si1H—C1A | 69.9 (5) | O2Axiv—C1B—O2Ixxiv | 88.0 (2) |
O3F—Si1H—C1Cv | 68.6 (6) | O2Axxiv—C1B—O2Ixiv | 88.0 (2) |
C1A—Si1H—C1Cv | 100.08 (9) | O2Axxiv—C1B—O2Ixxiv | 92.0 (2) |
O1J—Si1I—O1Lxvi | 106.5 (7) | O2Axiv—C1B—O2Ixiv | 92.0 (2) |
O1J—Si1I—O3E | 110.3 (6) | O2Axxiv—C1B—O2Lxxvi | 89.4 (2) |
O1J—Si1I—C1Biii | 76.2 (5) | O2Axiv—C1B—O2Lxxvi | 90.6 (2) |
O1J—Si1I—C1Cv | 174.7 (5) | O2Axiv—C1B—O2Lxv | 89.4 (2) |
O1Lxvi—Si1I—C1Biii | 177.2 (5) | O2Axxiv—C1B—O2Lxv | 90.6 (2) |
O1Lxvi—Si1I—C1Cv | 78.7 (4) | O2Axiv—C1B—O4Cxii | 54.2 (2) |
O2Cviii—Si1I—O1J | 106.8 (6) | O2Axxiv—C1B—O4Cxii | 125.8 (2) |
O2Cviii—Si1I—O1Lxvi | 110.2 (7) | O2Axxiv—C1B—O4Dxii | 141.7 (2) |
O2Cviii—Si1I—O3E | 111.7 (7) | O2Axiv—C1B—O4Dxxv | 141.7 (2) |
O2Cviii—Si1I—C1Biii | 67.7 (5) | O2Axiv—C1B—O4Dxii | 38.3 (2) |
O2Cviii—Si1I—C1Cv | 71.7 (6) | O2Axxiv—C1B—O4Dxxv | 38.3 (2) |
O3E—Si1I—O1Lxvi | 111.2 (6) | O2Cxii—C1B—O2Cxxv | 180.0 |
O3E—Si1I—C1Biii | 68.5 (5) | O2Cxii—C1B—O4Cxii | 36.1 (2) |
O3E—Si1I—C1Cv | 66.2 (6) | O2Cxxv—C1B—O4Cxii | 143.9 (2) |
C1Biii—Si1I—C1Cv | 98.67 (9) | O2Ixiv—C1B—O1Cxxiv | 72.2 (2) |
O1Iiv—Si1J—C1A | 176.2 (4) | O2Ixxiv—C1B—O1Cxiv | 72.2 (2) |
O1Iiv—Si1J—C1Bxvii | 78.6 (4) | O2Ixiv—C1B—O1Cxiv | 107.8 (2) |
O1Miv—Si1J—O1Iiv | 105.3 (4) | O2Ixxiv—C1B—O1Cxxiv | 107.8 (2) |
O1Miv—Si1J—O2Hiv | 108.0 (7) | O2Ixxiv—C1B—O2Cxxv | 70.0 (3) |
O1Miv—Si1J—C1A | 78.4 (4) | O2Ixiv—C1B—O2Cxxv | 110.0 (3) |
O1Miv—Si1J—C1Bxvii | 176.1 (4) | O2Ixxiv—C1B—O2Cxii | 110.0 (3) |
O2Hiv—Si1J—O1Iiv | 108.0 (7) | O2Ixiv—C1B—O2Cxii | 70.0 (3) |
O2Hiv—Si1J—C1A | 71.1 (5) | O2Ixxiv—C1B—O2Ixiv | 180.0 |
O2Hiv—Si1J—C1Bxvii | 70.0 (5) | O2Ixxiv—C1B—O4Cxii | 74.4 (2) |
O3A—Si1J—O1Iiv | 111.2 (7) | O2Ixiv—C1B—O4Cxii | 105.6 (2) |
O3A—Si1J—O1Miv | 112.1 (7) | O2Lxv—C1B—O1Cxxiv | 37.1 (2) |
O3A—Si1J—O2Hiv | 112.0 (4) | O2Lxxvi—C1B—O1Cxiv | 37.1 (2) |
O3A—Si1J—C1A | 66.3 (5) | O2Lxxvi—C1B—O1Cxxiv | 142.9 (2) |
O3A—Si1J—C1Bxvii | 66.3 (5) | O2Lxv—C1B—O1Cxiv | 142.9 (2) |
C1A—Si1J—C1Bxvii | 97.68 (4) | O2Lxv—C1B—O2Cxii | 36.9 (2) |
O1G—Si1K—C1Biii | 175.0 (5) | O2Lxxvi—C1B—O2Cxii | 143.1 (2) |
O1G—Si1K—C1Di | 71.9 (4) | O2Lxxvi—C1B—O2Cxxv | 36.9 (2) |
O1J—Si1K—O1G | 108.4 (7) | O2Lxv—C1B—O2Cxxv | 143.1 (2) |
O1J—Si1K—C1Biii | 76.4 (5) | O2Lxxvi—C1B—O2Ixxiv | 92.8 (2) |
O1J—Si1K—C1Di | 174.4 (4) | O2Lxv—C1B—O2Ixxiv | 87.2 (2) |
O2I—Si1K—O1G | 107.6 (7) | O2Lxxvi—C1B—O2Ixiv | 87.2 (2) |
O2I—Si1K—O1J | 111.6 (6) | O2Lxv—C1B—O2Ixiv | 92.8 (2) |
O2I—Si1K—C1Biii | 69.0 (5) | O2Lxv—C1B—O2Lxxvi | 180.0 |
O2I—Si1K—C1Di | 63.5 (4) | O2Lxxvi—C1B—O4Cxii | 142.10 (19) |
O3D—Si1K—O1G | 108.0 (6) | O2Lxv—C1B—O4Cxii | 37.90 (19) |
O3D—Si1K—O1J | 110.3 (6) | O4Axxvii—C1B—O1Cxiv | 83.6 (2) |
O3D—Si1K—O2I | 110.8 (6) | O4Axxviii—C1B—O1Cxxiv | 83.6 (2) |
O3D—Si1K—C1Biii | 70.6 (4) | O4Axxviii—C1B—O1Cxiv | 96.4 (2) |
O3D—Si1K—C1Di | 74.6 (4) | O4Axxvii—C1B—O1Cxxiv | 96.4 (2) |
C1Di—Si1K—C1Biii | 103.17 (8) | O4Axxvii—C1B—O2Axxiv | 75.2 (2) |
O1Fxiii—Si1L—O1H | 108.7 (7) | O4Axxvii—C1B—O2Axiv | 104.8 (2) |
O1Fxiii—Si1L—O2F | 111.4 (7) | O4Axxviii—C1B—O2Axxiv | 104.8 (2) |
O1Fxiii—Si1L—O3Cv | 108.7 (6) | O4Axxviii—C1B—O2Axiv | 75.2 (2) |
O1Fxiii—Si1L—C1A | 173.3 (5) | O4Axxvii—C1B—O2Cxii | 107.4 (2) |
O1Fxiii—Si1L—C1D | 70.7 (4) | O4Axxvii—C1B—O2Cxxv | 72.6 (2) |
O1H—Si1L—O3Cv | 110.2 (6) | O4Axxviii—C1B—O2Cxii | 72.6 (2) |
O1H—Si1L—C1A | 77.2 (5) | O4Axxviii—C1B—O2Cxxv | 107.4 (2) |
O1H—Si1L—C1D | 174.5 (5) | O4Axxviii—C1B—O2Ixxiv | 37.7 (2) |
O2F—Si1L—O1H | 110.5 (6) | O4Axxvii—C1B—O2Ixxiv | 142.3 (2) |
O2F—Si1L—O3Cv | 107.3 (7) | O4Axxviii—C1B—O2Ixiv | 142.3 (2) |
O2F—Si1L—C1A | 62.7 (5) | O4Axxvii—C1B—O2Ixiv | 37.7 (2) |
O2F—Si1L—C1D | 65.3 (4) | O4Axxviii—C1B—O2Lxxvi | 127.4 (2) |
O3Cv—Si1L—C1A | 71.5 (4) | O4Axxviii—C1B—O2Lxv | 52.6 (2) |
O3Cv—Si1L—C1D | 75.0 (4) | O4Axxvii—C1B—O2Lxv | 127.4 (2) |
C1D—Si1L—C1A | 103.21 (8) | O4Axxvii—C1B—O2Lxxvi | 52.6 (2) |
O2Civ—Si2A—O2K | 108.4 (5) | O4Axxviii—C1B—O4Axxvii | 180.0 |
O2Civ—Si2A—O2L | 108.8 (7) | O4Axxvii—C1B—O4Cxii | 141.4 (2) |
O2Civ—Si2A—O4Civ | 107.1 (6) | O4Axxviii—C1B—O4Cxii | 38.6 (2) |
O2Civ—Si2A—C1Avii | 173.5 (4) | O4Axxvii—C1B—O4Dxii | 142.0 (2) |
O2Civ—Si2A—C1Bxviii | 73.3 (5) | O4Axxvii—C1B—O4Dxxv | 38.0 (2) |
O2Civ—Si2A—C1C | 80.4 (6) | O4Axxviii—C1B—O4Dxxv | 142.0 (2) |
O2K—Si2A—O4Civ | 113.0 (6) | O4Axxviii—C1B—O4Dxii | 38.0 (2) |
O2K—Si2A—C1Avii | 72.3 (5) | O4Dxii—C1B—O1Cxxiv | 110.1 (2) |
O2K—Si2A—C1Bxviii | 175.8 (4) | O4Dxxv—C1B—O1Cxxiv | 69.9 (2) |
O2K—Si2A—C1C | 78.8 (6) | O4Dxii—C1B—O1Cxiv | 69.9 (2) |
O2L—Si2A—O2K | 109.3 (7) | O4Dxxv—C1B—O1Cxiv | 110.1 (2) |
O2L—Si2A—O4Civ | 110.1 (5) | O4Dxii—C1B—O2Cxii | 68.4 (2) |
O2L—Si2A—C1Avii | 65.2 (5) | O4Dxii—C1B—O2Cxxv | 111.6 (2) |
O2L—Si2A—C1Bxviii | 66.5 (5) | O4Dxxv—C1B—O2Cxii | 111.6 (2) |
O2L—Si2A—C1C | 164.0 (4) | O4Dxxv—C1B—O2Cxxv | 68.4 (2) |
O4Civ—Si2A—C1Avii | 78.2 (4) | O4Dxxv—C1B—O2Ixxiv | 126.2 (2) |
O4Civ—Si2A—C1Bxviii | 69.7 (4) | O4Dxxv—C1B—O2Ixiv | 53.8 (2) |
O4Civ—Si2A—C1C | 54.0 (4) | O4Dxii—C1B—O2Ixiv | 126.2 (2) |
C1Avii—Si2A—C1Bxviii | 105.60 (5) | O4Dxii—C1B—O2Ixxiv | 53.8 (2) |
C1Avii—Si2A—C1C | 106.0 (5) | O4Dxii—C1B—O2Lxv | 72.9 (2) |
C1Bxviii—Si2A—C1C | 105.3 (5) | O4Dxxv—C1B—O2Lxxvi | 72.9 (2) |
O2A—Si2B—O2D | 111.8 (7) | O4Dxii—C1B—O2Lxxvi | 107.1 (2) |
O2A—Si2B—C1Biii | 62.2 (4) | O4Dxxv—C1B—O2Lxv | 107.1 (2) |
O2A—Si2B—C1Cv | 71.8 (6) | O4Dxxv—C1B—O4Cxii | 143.0 (2) |
O2A—Si2B—C1Diii | 166.0 (4) | O4Dxii—C1B—O4Cxii | 37.0 (2) |
O2D—Si2B—C1Biii | 81.6 (4) | O4Dxii—C1B—O4Dxxv | 180.0 (2) |
O2D—Si2B—C1Cv | 172.6 (4) | O1Av—C1C—O1Bv | 180.0 |
O2D—Si2B—C1Diii | 71.6 (5) | O1Av—C1C—O2Av | 141.9 (4) |
O2J—Si2B—O2A | 109.3 (7) | O1Av—C1C—O2Axxix | 141.9 (4) |
O2J—Si2B—O2D | 108.2 (7) | O1Av—C1C—O3Bxxxi | 89.4 (6) |
O2J—Si2B—O4Dviii | 106.3 (6) | O1Av—C1C—O3Bxv | 89.4 (6) |
O2J—Si2B—C1Biii | 169.4 (5) | O1Av—C1C—O3Ev | 142.6 (4) |
O2J—Si2B—C1Cv | 64.4 (5) | O1Av—C1C—O3Exxix | 142.6 (4) |
O2J—Si2B—C1Diii | 81.5 (5) | O1Av—C1C—O3Fxxix | 36.4 (4) |
O4Dviii—Si2B—O2A | 112.2 (6) | O1Av—C1C—O3Fv | 36.4 (4) |
O4Dviii—Si2B—O2D | 108.9 (7) | O1Av—C1C—O4B | 70.9 (5) |
O4Dviii—Si2B—C1Biii | 73.3 (4) | O1Bv—C1C—O2Axxix | 38.1 (4) |
O4Dviii—Si2B—C1Cv | 74.8 (6) | O1Bv—C1C—O2Av | 38.1 (4) |
O4Dviii—Si2B—C1Diii | 54.9 (4) | O1Bv—C1C—O3Bxv | 90.6 (6) |
C1Cv—Si2B—C1Biii | 105.80 (8) | O1Bv—C1C—O3Bxxxi | 90.6 (6) |
C1Diii—Si2B—C1Biii | 106.02 (7) | O1Bv—C1C—O3Exxix | 37.4 (4) |
C1Diii—Si2B—C1Cv | 106.6 (5) | O1Bv—C1C—O3Ev | 37.4 (4) |
O2B—Si2C—C1Avii | 63.7 (5) | O1Bv—C1C—O3Fv | 143.6 (4) |
O2B—Si2C—C1C | 77.5 (6) | O1Bv—C1C—O3Fxxix | 143.6 (4) |
O2B—Si2C—C1Dvii | 169.7 (5) | O1Bv—C1C—O4B | 109.1 (5) |
O2E—Si2C—O2B | 110.8 (7) | O2Axxix—C1C—O2Av | 76.2 (8) |
O2E—Si2C—O2G | 108.8 (7) | O2Av—C1C—O3Bxxxi | 105.4 (6) |
O2E—Si2C—C1Avii | 83.7 (4) | O2Axxix—C1C—O3Bxv | 105.4 (6) |
O2E—Si2C—C1C | 169.4 (5) | O2Av—C1C—O3Bxv | 75.5 (4) |
O2E—Si2C—C1Dvii | 67.9 (5) | O2Axxix—C1C—O3Bxxxi | 75.5 (4) |
O2G—Si2C—O2B | 111.1 (7) | O2Av—C1C—O4B | 71.2 (3) |
O2G—Si2C—C1Avii | 167.4 (5) | O2Axxix—C1C—O4B | 147.0 (9) |
O2G—Si2C—C1C | 61.2 (5) | O2Gxxx—C1C—O1Av | 57.9 (6) |
O2G—Si2C—C1Dvii | 78.5 (5) | O2G—C1C—O1Av | 57.9 (6) |
O4B—Si2C—O2B | 109.2 (6) | O2Gxxx—C1C—O1Bv | 122.1 (6) |
O4B—Si2C—O2E | 101.3 (7) | O2G—C1C—O1Bv | 122.1 (6) |
O4B—Si2C—O2G | 115.2 (6) | O2Gxxx—C1C—O2Axxix | 92.2 (3) |
O4B—Si2C—C1Avii | 59.3 (4) | O2G—C1C—O2Av | 92.2 (3) |
O4B—Si2C—C1C | 81.3 (6) | O2G—C1C—O2Axxix | 143.0 (5) |
O4B—Si2C—C1Dvii | 62.0 (4) | O2Gxxx—C1C—O2Av | 143.0 (5) |
C1Avii—Si2C—C1C | 106.25 (7) | O2G—C1C—O2Gxxx | 115.7 (11) |
C1Avii—Si2C—C1Dvii | 106.11 (7) | O2Gxxx—C1C—O3Bxv | 141.3 (10) |
C1C—Si2C—C1Dvii | 105.1 (4) | O2Gxxx—C1C—O3Bxxxi | 37.7 (3) |
O2F—Si2D—O2Iiv | 110.0 (5) | O2G—C1C—O3Bxv | 37.7 (3) |
O2F—Si2D—O4A | 106.8 (7) | O2G—C1C—O3Bxxxi | 141.3 (10) |
O2F—Si2D—C1A | 67.0 (5) | O2Gxxx—C1C—O3Ev | 107.3 (3) |
O2F—Si2D—C1Bxvii | 165.6 (4) | O2G—C1C—O3Exxix | 107.3 (3) |
O2F—Si2D—C1D | 66.2 (4) | O2G—C1C—O3Ev | 123.2 (4) |
O2Hiv—Si2D—O2F | 111.5 (7) | O2Gxxx—C1C—O3Exxix | 123.2 (4) |
O2Hiv—Si2D—O2Iiv | 110.8 (7) | O2G—C1C—O3Fv | 72.2 (6) |
O2Hiv—Si2D—O4A | 107.2 (5) | O2Gxxx—C1C—O3Fv | 56.6 (5) |
O2Hiv—Si2D—C1A | 80.6 (5) | O2Gxxx—C1C—O3Fxxix | 72.2 (6) |
O2Hiv—Si2D—C1Bxvii | 78.3 (5) | O2G—C1C—O3Fxxix | 56.6 (5) |
O2Hiv—Si2D—C1D | 170.8 (4) | O2Gxxx—C1C—O4B | 116.7 (9) |
O2Iiv—Si2D—O4A | 110.4 (7) | O2G—C1C—O4B | 37.1 (3) |
O2Iiv—Si2D—C1A | 168.1 (4) | O3Bxxxi—C1C—O3Bxv | 178.9 (12) |
O2Iiv—Si2D—C1Bxvii | 74.2 (5) | O3Bxxxi—C1C—O4B | 117.3 (4) |
O2Iiv—Si2D—C1D | 63.3 (4) | O3Bxv—C1C—O4B | 62.3 (2) |
O4A—Si2D—C1A | 61.4 (5) | O3Ev—C1C—O2Av | 36.0 (4) |
O4A—Si2D—C1Bxvii | 59.4 (5) | O3Exxix—C1C—O2Av | 63.8 (6) |
O4A—Si2D—C1D | 81.9 (3) | O3Exxix—C1C—O2Axxix | 36.0 (4) |
C1Bxvii—Si2D—C1A | 105.95 (5) | O3Ev—C1C—O2Axxix | 63.8 (6) |
C1D—Si2D—C1A | 105.82 (7) | O3Ev—C1C—O3Bxxxi | 69.6 (4) |
C1D—Si2D—C1Bxvii | 105.73 (7) | O3Exxix—C1C—O3Bxv | 69.6 (4) |
O4Axi—Si3—O4Bi | 102.0 (7) | O3Exxix—C1C—O3Bxxxi | 111.4 (7) |
O4Axi—Si3—C1Axi | 64.8 (5) | O3Ev—C1C—O3Bxv | 111.4 (7) |
O4Axi—Si3—C1Bx | 63.6 (5) | O3Exxix—C1C—O3Ev | 74.8 (8) |
O4Axi—Si3—C1Ci | 166.3 (4) | O3Exxix—C1C—O4B | 120.1 (5) |
O4Axi—Si3—C1Dxi | 84.8 (3) | O3Ev—C1C—O4B | 91.1 (3) |
O4Bi—Si3—C1Axi | 62.1 (4) | O3Fv—C1C—O2Axxix | 144.4 (2) |
O4Bi—Si3—C1Bx | 165.5 (4) | O3Fxxix—C1C—O2Axxix | 117.0 (2) |
O4Bi—Si3—C1Ci | 85.3 (7) | O3Fv—C1C—O2Av | 117.0 (2) |
O4Bi—Si3—C1Dxi | 65.0 (4) | O3Fxxix—C1C—O2Av | 144.4 (2) |
O4C—Si3—O4Axi | 109.2 (5) | O3Fxxix—C1C—O3Bxxxi | 109.9 (7) |
O4C—Si3—O4Bi | 115.3 (6) | O3Fv—C1C—O3Bxv | 109.9 (7) |
O4C—Si3—O4D | 111.2 (6) | O3Fxxix—C1C—O3Bxv | 69.1 (4) |
O4C—Si3—C1Axi | 82.4 (4) | O3Fv—C1C—O3Bxxxi | 69.1 (4) |
O4C—Si3—C1Bx | 73.7 (4) | O3Fv—C1C—O3Ev | 106.18 (15) |
O4C—Si3—C1Ci | 57.1 (3) | O3Fxxix—C1C—O3Ev | 179.0 (7) |
O4C—Si3—C1Dxi | 165.0 (4) | O3Fv—C1C—O3Exxix | 179.0 (7) |
O4D—Si3—O4Axi | 111.2 (7) | O3Fxxix—C1C—O3Exxix | 106.18 (15) |
O4D—Si3—O4Bi | 107.5 (6) | O3Fxxix—C1C—O3Fv | 72.9 (7) |
O4D—Si3—C1Axi | 166.1 (5) | O3Fv—C1C—O4B | 60.1 (4) |
O4D—Si3—C1Bx | 77.7 (4) | O3Fxxix—C1C—O4B | 88.4 (7) |
O4D—Si3—C1Ci | 76.8 (6) | O4Cxxxii—C1C—O1Av | 91.7 (7) |
O4D—Si3—C1Dxi | 56.9 (4) | O4Civ—C1C—O1Av | 91.7 (7) |
C1Axi—Si3—C1Ci | 110.0 (5) | O4Cxxxii—C1C—O1Bv | 88.3 (7) |
C1Axi—Si3—C1Dxi | 109.24 (8) | O4Civ—C1C—O1Bv | 88.3 (7) |
C1Bx—Si3—C1Axi | 110.12 (4) | O4Cxxxii—C1C—O2Av | 121.6 (10) |
C1Bx—Si3—C1Ci | 109.1 (5) | O4Civ—C1C—O2Av | 55.3 (4) |
C1Bx—Si3—C1Dxi | 109.54 (8) | O4Cxxxii—C1C—O2Axxix | 55.3 (4) |
C1Ci—Si3—C1Dxi | 108.83 (4) | O4Civ—C1C—O2Axxix | 121.6 (10) |
Si1B—O1A—Si1Bxix | 172.3 (12) | O4Cxxxii—C1C—O2Gxxx | 74.9 (4) |
Si1B—O1A—C1Cv | 93.8 (6) | O4Cxxxii—C1C—O2G | 106.9 (5) |
Si1Bxix—O1A—C1Cv | 93.8 (6) | O4Civ—C1C—O2G | 74.9 (4) |
Si1Cxix—O1B—Si1C | 172.8 (12) | O4Civ—C1C—O2Gxxx | 106.9 (5) |
Si1C—O1B—C1Cv | 93.6 (6) | O4Civ—C1C—O3Bxxxi | 87.10 (19) |
Si1Cxix—O1B—C1Cv | 93.6 (6) | O4Cxxxii—C1C—O3Bxv | 87.10 (19) |
Si1A—O1C—C1Biii | 85.2 (4) | O4Cxxxii—C1C—O3Bxxxi | 92.93 (19) |
Si1Eviii—O1C—Si1A | 175.0 (8) | O4Civ—C1C—O3Bxv | 92.93 (19) |
Si1Eviii—O1C—C1Biii | 90.0 (5) | O4Civ—C1C—O3Ev | 57.9 (4) |
Si1F—O1D—Si1Hxvi | 158.1 (8) | O4Cxxxii—C1C—O3Ev | 119.0 (9) |
Si1F—O1D—C1Cxii | 75.8 (4) | O4Civ—C1C—O3Exxix | 119.0 (9) |
Si1Hxvi—O1D—C1Cxii | 82.3 (5) | O4Cxxxii—C1C—O3Exxix | 57.9 (4) |
Si1D—O1E—Si1Eix | 153.9 (6) | O4Cxxxii—C1C—O3Fxxix | 61.7 (4) |
Si1Gxvi—O1F—C1Dxvi | 93.9 (4) | O4Cxxxii—C1C—O3Fv | 121.4 (9) |
Si1Lxvi—O1F—Si1Gxvi | 175.8 (8) | O4Civ—C1C—O3Fxxix | 121.4 (9) |
Si1Lxvi—O1F—C1Dxvi | 88.1 (5) | O4Civ—C1C—O3Fv | 61.7 (4) |
Si1F—O1G—Si1K | 171.4 (8) | O4Civ—C1C—O4B | 37.8 (3) |
Si1F—O1G—C1Di | 91.3 (4) | O4Cxxxii—C1C—O4B | 144.0 (6) |
Si1K—O1G—C1Di | 86.7 (5) | O4Cxxxii—C1C—O4Civ | 176.7 (14) |
Si1H—O1H—C1A | 82.1 (5) | O1Gxxiv—C1D—O1Fxxxiii | 63.02 (16) |
Si1L—O1H—Si1H | 164.2 (10) | O1Giv—C1D—O1Fxxxiii | 116.98 (16) |
Si1L—O1H—C1A | 82.3 (5) | O1Gxxiv—C1D—O1Giv | 180.0 (3) |
Si1C—O1I—Si1Ji | 157.1 (8) | O2Dxiv—C1D—O1Fxxxiii | 125.5 (2) |
Si1C—O1I—C1Biii | 76.0 (4) | O2Dxxii—C1D—O1Fxxxiii | 54.5 (2) |
Si1Ji—O1I—C1Biii | 81.1 (4) | O2Dxxii—C1D—O1Giv | 73.3 (3) |
Si1I—O1J—C1Biii | 83.3 (5) | O2Dxiv—C1D—O1Gxxiv | 73.3 (3) |
Si1K—O1J—Si1I | 165.6 (10) | O2Dxxii—C1D—O1Gxxiv | 106.7 (3) |
Si1K—O1J—C1Biii | 82.9 (5) | O2Dxiv—C1D—O1Giv | 106.7 (3) |
Si1Aiv—O1K—C1A | 86.8 (4) | O2Dxxii—C1D—O2Dxiv | 180.0 |
Si1Dv—O1K—Si1Aiv | 175.8 (8) | O2F—C1D—O1Fxxxiii | 142.1 (2) |
Si1Dv—O1K—C1A | 92.6 (5) | O2Fxxviii—C1D—O1Fxxxiii | 37.9 (2) |
Si1G—O1L—Si1Ixiii | 157.1 (8) | O2Fxxviii—C1D—O1Gxxiv | 64.8 (2) |
Si1G—O1L—C1Cxv | 76.1 (4) | O2Fxxviii—C1D—O1Giv | 115.2 (2) |
Si1Ixiii—O1L—C1Cxv | 81.1 (5) | O2F—C1D—O1Giv | 64.8 (2) |
Si1Bi—O1M—C1Ai | 75.8 (4) | O2F—C1D—O1Gxxiv | 115.2 (2) |
Si1Ji—O1M—Si1Bi | 157.1 (8) | O2F—C1D—O2Dxiv | 85.0 (2) |
Si1Ji—O1M—C1Ai | 81.4 (4) | O2Fxxviii—C1D—O2Dxiv | 95.0 (2) |
Si1C—O2A—C1Biii | 100.5 (5) | O2Fxxviii—C1D—O2Dxxii | 85.0 (2) |
Si1C—O2A—C1Cv | 87.4 (6) | O2F—C1D—O2Dxxii | 95.0 (2) |
Si2B—O2A—Si1C | 162.8 (9) | O2F—C1D—O2Fxxviii | 180.0 |
Si2B—O2A—C1Biii | 96.5 (5) | O2F—C1D—O2Ixxiv | 141.6 (2) |
Si2B—O2A—C1Cv | 86.6 (5) | O2F—C1D—O2Iiv | 38.4 (2) |
C1Biii—O2A—C1Cv | 120.1 (4) | O2Fxxviii—C1D—O2Iiv | 141.6 (2) |
Si1Bv—O2B—Si2C | 162.8 (9) | O2Fxxviii—C1D—O2Ixxiv | 38.4 (2) |
Si1Iviii—O2C—Si2Ai | 164.4 (8) | O2Iiv—C1D—O1Fxxxiii | 118.4 (2) |
Si1Iviii—O2C—C1Bx | 91.5 (5) | O2Ixxiv—C1D—O1Fxxxiii | 61.6 (2) |
Si1Iviii—O2C—C1Ci | 87.9 (6) | O2Ixxiv—C1D—O1Gxxiv | 37.1 (2) |
Si2Ai—O2C—C1Bx | 85.4 (5) | O2Iiv—C1D—O1Giv | 37.1 (2) |
Si2Ai—O2C—C1Ci | 78.7 (6) | O2Ixxiv—C1D—O1Giv | 142.9 (2) |
C1Bx—O2C—C1Ci | 107.9 (4) | O2Iiv—C1D—O1Gxxiv | 142.9 (2) |
Si1Eviii—O2D—Si2B | 160.5 (8) | O2Iiv—C1D—O2Dxxii | 63.9 (2) |
Si1Eviii—O2D—C1Biii | 83.4 (4) | O2Iiv—C1D—O2Dxiv | 116.1 (2) |
Si1Eviii—O2D—C1Diii | 95.5 (6) | O2Ixxiv—C1D—O2Dxxii | 116.1 (2) |
Si2B—O2D—C1Biii | 77.5 (4) | O2Ixxiv—C1D—O2Dxiv | 63.9 (2) |
Si2B—O2D—C1Diii | 86.9 (5) | O2Ixxiv—C1D—O2Iiv | 180.0 (2) |
C1Diii—O2D—C1Biii | 108.9 (3) | O3Dxxiv—C1D—O1Fxxxiii | 93.2 (2) |
Si1D—O2E—C1Avii | 82.7 (4) | O3Div—C1D—O1Fxxxiii | 86.8 (2) |
Si1D—O2E—C1Dvii | 98.8 (6) | O3Dxxiv—C1D—O1Gxxiv | 36.2 (2) |
Si2C—O2E—Si1D | 158.1 (8) | O3Div—C1D—O1Gxxiv | 143.8 (2) |
Si2C—O2E—C1Avii | 75.5 (4) | O3Div—C1D—O1Giv | 36.2 (2) |
Si2C—O2E—C1Dvii | 90.8 (5) | O3Dxxiv—C1D—O1Giv | 143.8 (3) |
C1Dvii—O2E—C1Avii | 109.8 (3) | O3Dxxiv—C1D—O2Dxxii | 142.8 (3) |
Si1L—O2F—Si2D | 166.0 (9) | O3Div—C1D—O2Dxxii | 37.2 (3) |
Si1L—O2F—C1A | 96.4 (5) | O3Dxxiv—C1D—O2Dxiv | 37.2 (3) |
Si1L—O2F—C1D | 93.2 (4) | O3Div—C1D—O2Dxiv | 142.8 (3) |
Si2D—O2F—C1A | 91.6 (5) | O3Dxxiv—C1D—O2F | 104.0 (2) |
Si2D—O2F—C1D | 92.5 (5) | O3Div—C1D—O2F | 76.0 (2) |
C1D—O2F—C1A | 120.6 (3) | O3Dxxiv—C1D—O2Fxxviii | 76.0 (2) |
Si1Fxii—O2G—Si2C | 161.1 (10) | O3Div—C1D—O2Fxxviii | 104.0 (2) |
Si1Fxii—O2G—C1C | 99.2 (6) | O3Dxxiv—C1D—O2Iiv | 142.3 (2) |
Si1Fxii—O2G—C1Dvii | 84.9 (5) | O3Dxxiv—C1D—O2Ixxiv | 37.7 (2) |
Si2C—O2G—C1C | 97.8 (5) | O3Div—C1D—O2Ixxiv | 142.3 (2) |
Si2C—O2G—C1Dvii | 80.5 (5) | O3Div—C1D—O2Iiv | 37.7 (2) |
C1C—O2G—C1Dvii | 115.4 (6) | O3Dxxiv—C1D—O3Div | 180.0 |
Si1Ji—O2H—C1Ai | 88.6 (5) | O3Dxxiv—C1D—O4Bxv | 91.8 (2) |
Si1Ji—O2H—C1Biii | 89.5 (5) | O3Div—C1D—O4Bxv | 88.2 (2) |
Si2Di—O2H—Si1Ji | 160.6 (7) | O3Dxxiv—C1D—O4Bxxiii | 88.2 (2) |
Si2Di—O2H—C1Ai | 78.4 (5) | O3Div—C1D—O4Bxxiii | 91.8 (2) |
Si2Di—O2H—C1Biii | 80.5 (5) | O3Div—C1D—O4Dxxi | 60.3 (2) |
C1Biii—O2H—C1Ai | 105.9 (2) | O3Div—C1D—O4Dxii | 119.7 (2) |
Si1K—O2I—Si2Di | 169.4 (8) | O3Dxxiv—C1D—O4Dxii | 60.3 (2) |
Si1K—O2I—C1Biii | 90.4 (5) | O3Dxxiv—C1D—O4Dxxi | 119.7 (2) |
Si1K—O2I—C1Di | 95.2 (4) | O4Bxxiii—C1D—O1Fxxxiii | 95.6 (2) |
Si2Di—O2I—C1Biii | 84.5 (5) | O4Bxv—C1D—O1Fxxxiii | 84.4 (2) |
Si2Di—O2I—C1Di | 95.4 (5) | O4Bxxiii—C1D—O1Giv | 106.9 (2) |
O3D—O2I—Si1K | 35.0 (4) | O4Bxv—C1D—O1Giv | 73.1 (2) |
O3D—O2I—Si2Di | 149.0 (8) | O4Bxxiii—C1D—O1Gxxiv | 73.1 (2) |
O3D—O2I—C1Biii | 72.8 (4) | O4Bxv—C1D—O1Gxxiv | 106.9 (2) |
O3D—O2I—C1Di | 77.5 (3) | O4Bxv—C1D—O2Dxiv | 78.4 (3) |
C1Di—O2I—C1Biii | 117.5 (3) | O4Bxxiii—C1D—O2Dxxii | 78.4 (3) |
Si1Giii—O2J—C1Cv | 99.2 (6) | O4Bxxiii—C1D—O2Dxiv | 101.6 (3) |
Si1Giii—O2J—C1Diii | 84.7 (5) | O4Bxv—C1D—O2Dxxii | 101.6 (3) |
Si2B—O2J—Si1Giii | 161.0 (10) | O4Bxv—C1D—O2Fxxviii | 52.4 (2) |
Si2B—O2J—C1Cv | 94.3 (5) | O4Bxxiii—C1D—O2Fxxviii | 127.6 (2) |
Si2B—O2J—C1Diii | 77.7 (5) | O4Bxxiii—C1D—O2F | 52.4 (2) |
C1Diii—O2J—C1Cv | 113.5 (6) | O4Bxv—C1D—O2F | 127.6 (2) |
Si1Hv—O2K—Si2A | 167.7 (8) | O4Bxv—C1D—O2Iiv | 110.1 (3) |
Si1Hv—O2K—C1Avii | 90.6 (5) | O4Bxxiii—C1D—O2Iiv | 69.9 (3) |
Si1Hv—O2K—C1C | 89.6 (6) | O4Bxv—C1D—O2Ixxiv | 69.9 (3) |
Si2A—O2K—C1Avii | 86.5 (5) | O4Bxxiii—C1D—O2Ixxiv | 110.1 (3) |
Si2A—O2K—C1C | 80.2 (6) | O4Bxv—C1D—O4Bxxiii | 180.00 (19) |
C1Avii—O2K—C1C | 110.0 (4) | O4Dxii—C1D—O1Fxxxiii | 108.9 (2) |
Si1Axx—O2L—C1Avii | 94.1 (6) | O4Dxxi—C1D—O1Fxxxiii | 71.1 (2) |
Si1Axx—O2L—C1Bxviii | 93.6 (6) | O4Dxii—C1D—O1Gxxiv | 90.3 (2) |
Si2A—O2L—Si1Axx | 166.8 (7) | O4Dxxi—C1D—O1Gxxiv | 89.7 (2) |
Si2A—O2L—C1Avii | 93.3 (6) | O4Dxxi—C1D—O1Giv | 90.3 (2) |
Si2A—O2L—C1Bxviii | 91.9 (6) | O4Dxii—C1D—O1Giv | 89.7 (2) |
C1Bxviii—O2L—C1Avii | 121.4 (2) | O4Dxii—C1D—O2Dxxii | 141.4 (3) |
Si1Aiv—O3A—C1A | 84.3 (5) | O4Dxii—C1D—O2Dxiv | 38.6 (3) |
Si1Aiv—O3A—C1Bxvii | 85.3 (5) | O4Dxxi—C1D—O2Dxiv | 141.4 (3) |
Si1J—O3A—Si1Aiv | 176.6 (6) | O4Dxxi—C1D—O2Dxxii | 38.6 (3) |
Si1J—O3A—C1A | 93.4 (5) | O4Dxii—C1D—O2Fxxviii | 71.1 (3) |
Si1J—O3A—C1Bxvii | 93.3 (5) | O4Dxxi—C1D—O2Fxxviii | 108.9 (3) |
C1A—O3A—C1Bxvii | 110.29 (16) | O4Dxxi—C1D—O2F | 71.1 (3) |
Si1Fiv—O3B—Si1G | 171.5 (5) | O4Dxii—C1D—O2F | 108.9 (3) |
Si1Fiv—O3B—C1Cxv | 87.7 (7) | O4Dxii—C1D—O2Ixxiv | 60.1 (2) |
Si1Fiv—O3B—C1D | 86.6 (4) | O4Dxxi—C1D—O2Iiv | 60.1 (2) |
Si1G—O3B—C1Cxv | 88.2 (7) | O4Dxii—C1D—O2Iiv | 119.9 (2) |
Si1G—O3B—C1D | 87.7 (4) | O4Dxxi—C1D—O2Ixxiv | 119.9 (2) |
C1Cxv—O3B—C1D | 109.42 (16) | O4Dxii—C1D—O4Bxv | 39.9 (2) |
Si1Dvi—O3C—C1Avii | 89.7 (5) | O4Dxxi—C1D—O4Bxv | 140.1 (2) |
Si1Dvi—O3C—C1Dx | 91.2 (4) | O4Dxii—C1D—O4Bxxiii | 140.1 (2) |
Si1Lv—O3C—Si1Dvi | 173.0 (9) | O4Dxxi—C1D—O4Bxxiii | 39.9 (2) |
Si1Lv—O3C—C1Avii | 87.5 (4) | O4Dxii—C1D—O4Dxxi | 180.0 |
Si1Lv—O3C—C1Dx | 83.7 (4) | C2Fxix—C2B—C2Hi | 113 (3) |
C1Avii—O3C—C1Dx | 109.4 (3) | C2Fxix—C2B—C2Ii | 91 (3) |
Si1K—O3D—O2I | 34.2 (4) | C2Hi—C2B—C2Ii | 34.8 (19) |
Si1K—O3D—C1Biii | 88.3 (4) | C2J—C2B—C2Fxix | 118 (4) |
Si1K—O3D—C1Di | 83.7 (4) | C2J—C2B—C2Hi | 45 (2) |
O2I—O3D—C1Biii | 70.8 (4) | C2J—C2B—C2Ii | 33 (2) |
O2I—O3D—C1Di | 64.8 (3) | C2Lxvii—C2C—C2Kxvii | 39 (3) |
C1Di—O3D—C1Biii | 110.0 (3) | C2Gxiii—C2D—C2Exix | 137 (5) |
Si1C—O3E—Si1I | 176.0 (8) | C2Gxiii—C2D—C2I | 66 (4) |
Si1C—O3E—C1Biii | 88.5 (5) | C2Gxiii—C2D—C2Jiv | 101 (4) |
Si1C—O3E—C1Cv | 83.6 (5) | C2H—C2D—C2Exix | 126 (5) |
Si1I—O3E—C1Biii | 90.5 (5) | C2H—C2D—C2Gxiii | 86 (5) |
Si1I—O3E—C1Cv | 93.2 (5) | C2H—C2D—C2I | 63 (4) |
C1Biii—O3E—C1Cv | 110.5 (3) | C2H—C2D—C2Jiv | 46 (3) |
Si1B—O3F—Si1H | 175.7 (9) | C2I—C2D—C2Exix | 101 (4) |
Si1B—O3F—C1A | 88.5 (5) | C2I—C2D—C2Jiv | 39 (2) |
Si1B—O3F—C1Cv | 85.7 (5) | C2Jiv—C2D—C2Exix | 87 (3) |
Si1H—O3F—C1A | 89.5 (5) | C2Dxix—C2E—C2Fiv | 139 (4) |
Si1H—O3F—C1Cv | 91.4 (5) | C2Kv—C2E—C2Dxix | 100 (4) |
C1Cv—O3F—C1A | 110.1 (3) | C2Kv—C2E—C2Fiv | 42 (3) |
Si2D—O4A—C1A | 97.3 (6) | C2Bxix—C2F—C2Ei | 65 (3) |
Si2D—O4A—C1Bxvii | 99.3 (6) | C2Kviii—C2F—C2Bxix | 68 (4) |
Si2D—O4A—C1D | 77.1 (3) | C2Kviii—C2F—C2Ei | 68 (4) |
Si3xxi—O4A—Si2D | 151.1 (6) | C2Dxvi—C2G—C2Hxvi | 38 (3) |
Si3xxi—O4A—C1A | 93.0 (6) | C2Dxvi—C2G—C2Ixvi | 59 (4) |
Si3xxi—O4A—C1Bxvii | 94.2 (6) | C2Hxvi—C2G—C2Ixvi | 49 (3) |
Si3xxi—O4A—C1D | 74.0 (3) | C2D—C2H—C2Biv | 82 (4) |
C1A—O4A—C1Bxvii | 130.6 (3) | C2D—C2H—C2Gxiii | 55 (4) |
C1A—O4A—C1D | 114.0 (3) | C2D—C2H—C2I | 73 (4) |
C1Bxvii—O4A—C1D | 115.0 (3) | C2D—C2H—C2Jiv | 105 (4) |
Si2C—O4B—Si3iv | 150.9 (8) | C2Gxiii—C2H—C2Biv | 124 (4) |
Si2C—O4B—C1Avii | 99.1 (5) | C2I—C2H—C2Biv | 75 (3) |
Si2C—O4B—C1C | 77.6 (6) | C2I—C2H—C2Gxiii | 60 (4) |
Si2C—O4B—C1Dvii | 96.4 (5) | C2Jiv—C2H—C2Biv | 40 (2) |
Si3iv—O4B—C1Avii | 95.6 (4) | C2Jiv—C2H—C2Gxiii | 114 (4) |
Si3iv—O4B—C1C | 73.4 (6) | C2Jiv—C2H—C2I | 54 (3) |
Si3iv—O4B—C1Dvii | 92.8 (5) | C2Biv—C2I—C2Kxxxiii | 48 (2) |
C1Avii—O4B—C1C | 116.0 (4) | C2D—C2I—C2Biv | 73 (3) |
C1Dvii—O4B—C1Avii | 130.5 (3) | C2D—C2I—C2Gxiii | 55 (4) |
C1Dvii—O4B—C1C | 113.1 (4) | C2D—C2I—C2Kxxxiii | 86 (3) |
Si2Ai—O4C—C1Axi | 80.7 (4) | C2Gxiii—C2I—C2Biv | 128 (4) |
Si2Ai—O4C—C1Bx | 88.8 (4) | C2Gxiii—C2I—C2Kxxxiii | 123 (4) |
Si2Ai—O4C—C1Ci | 105.3 (4) | C2H—C2I—C2Biv | 70 (3) |
Si3—O4C—Si2Ai | 151.2 (7) | C2H—C2I—C2D | 44 (3) |
Si3—O4C—C1Axi | 76.1 (4) | C2H—C2I—C2Gxiii | 71 (4) |
Si3—O4C—C1Bx | 84.1 (4) | C2H—C2I—C2Kxxxiii | 111 (4) |
Si3—O4C—C1Ci | 101.2 (4) | C2Jiv—C2I—C2Biv | 36 (2) |
C1Bx—O4C—C1Axi | 111.2 (2) | C2Jiv—C2I—C2D | 98 (4) |
C1Ci—O4C—C1Axi | 121.3 (7) | C2Jiv—C2I—C2Gxiii | 142 (5) |
C1Ci—O4C—C1Bx | 127.0 (8) | C2Jiv—C2I—C2H | 72 (3) |
Si2Bviii—O4D—Si3 | 154.0 (8) | C2Jiv—C2I—C2Kxxxiii | 74 (3) |
Si2Bviii—O4D—C1Bx | 85.1 (4) | C2B—C2J—C2Di | 79 (3) |
Si2Bviii—O4D—C1Ci | 83.5 (7) | C2B—C2J—C2Hi | 95 (3) |
Si2Bviii—O4D—C1Dxi | 104.0 (5) | C2B—C2J—C2Ii | 111 (4) |
Si3—O4D—C1Bx | 80.7 (4) | C2Hi—C2J—C2Di | 28 (2) |
Si3—O4D—C1Ci | 81.7 (6) | C2Hi—C2J—C2Ii | 54 (3) |
Si3—O4D—C1Dxi | 102.0 (5) | C2Ii—C2J—C2Di | 43 (3) |
C1Bx—O4D—C1Ci | 111.3 (4) | C2Ev—C2K—C2Cxxvii | 118 (4) |
C1Dxi—O4D—C1Bx | 124.4 (3) | C2Ev—C2K—C2Ixxix | 73 (3) |
C1Dxi—O4D—C1Ci | 124.1 (4) | C2Fviii—C2K—C2Cxxvii | 162 (6) |
O1K—C1A—O1Kxxii | 180.0 | C2Fviii—C2K—C2Ev | 70 (5) |
O1K—C1A—O2Fxxii | 72.2 (2) | C2Fviii—C2K—C2Ixxix | 139 (6) |
O1Kxxii—C1A—O2F | 72.2 (2) | C2Ixxix—C2K—C2Cxxvii | 45 (3) |
O1K—C1A—O2F | 107.8 (2) | C2L—C2K—C2Cxxvii | 58 (4) |
O1Kxxii—C1A—O2Fxxii | 107.8 (2) | C2L—C2K—C2Ev | 90 (5) |
O1Kxxii—C1A—O2Kxxiii | 121.1 (2) | C2L—C2K—C2Fviii | 140 (7) |
O1K—C1A—O2Kxxiii | 58.9 (2) | C2L—C2K—C2Ixxix | 55 (4) |
O1K—C1A—O2Kv | 121.1 (2) | C2K—C2L—C2Cxxvii | 83 (5) |
O1Kxxii—C1A—O2Kv | 58.9 (2) |
Symmetry codes: (i) x, y+1, z; (ii) x−1, y+1, z; (iii) x, y+1/2, z−1/2; (iv) x, y−1, z; (v) −x+1, −y+1/2, −z+1/2; (vi) −x+2, −y+1/2, −z+1/2; (vii) x+1, y, z; (viii) −x+1, −y+3/2, −z+1/2; (ix) −x+2, −y+1, −z+1; (x) x+1, y+1/2, z−1/2; (xi) x+1, y+1, z; (xii) −x+1, −y+1, −z+1; (xiii) −x+1/2, y−1/2, −z+1; (xiv) x, y−1/2, z+1/2; (xv) −x+1, −y, −z+1; (xvi) −x+1/2, y+1/2, −z+1; (xvii) x, y−1/2, z−1/2; (xviii) x+1, y−1/2, z−1/2; (xix) −x+1/2, y, −z+1/2; (xx) x+1, y−1, z; (xxi) x−1, y−1, z; (xxii) −x, −y+1/2, −z+1/2; (xxiii) x−1, y, z; (xxiv) −x, −y+1, −z+1; (xxv) x−1, y−1/2, z+1/2; (xxvi) x−1, y+1/2, z+1/2; (xxvii) x, y+1/2, z+1/2; (xxviii) −x, −y, −z+1; (xxix) x+1/2, −y+1/2, z; (xxx) −x+3/2, y, −z+1/2; (xxxi) x+1/2, −y, z−1/2; (xxxii) −x+3/2, y−1, −z+1/2; (xxxiii) x−1/2, −y+1/2, z. |
0.01(C6.22Na0.78O272Si136)·0.45(C) | Dx = 1.953 Mg m−3 |
Mr = 63.35 | Mo Kα radiation, λ = 0.71073 Å |
Cubic, Fd3m | Cell parameters from 32000 reflections |
a = 19.4199 (15) Å | θ = 3–67° |
V = 7323.9 (17) Å3 | µ = 0.70 mm−1 |
Z = 136 | T = 250 K |
F(000) = 4301 | Platelet |
StoeStadiVari diffractometer | θmax = 33.3°, θmin = 3.0° |
30685 measured reflections | h = −29→30 |
722 independent reflections | k = −29→29 |
688 reflections with I > 2σ(I) | l = −14→29 |
Rint = 0.211 |
Refinement on F2 | 0 restraints |
Least-squares matrix: full | w = 1/[σ2(Fo2) + 1932.8269P] where P = (Fo2 + 2Fc2)/3 |
R[F2 > 2σ(F2)] = 0.168 | (Δ/σ)max = 0.002 |
wR(F2) = 0.327 | Δρmax = 1.01 e Å−3 |
S = 1.00 | Δρmin = −4.94 e Å−3 |
722 reflections | Extinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4 |
44 parameters | Extinction coefficient: 0.0009 (3) |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1 | 0.06759 (15) | 0.06759 (15) | 0.36931 (17) | 0.0265 (10) | |
Si2 | 0.21648 (15) | 0.21648 (15) | 0.21648 (15) | 0.0137 (11) | |
Si3 | 0.1250 | 0.1250 | 0.1250 | 0.0146 (19) | |
O1 | 0.0000 | 0.3439 (6) | −0.3439 (6) | 0.070 (5) | |
O2 | 0.1998 (8) | 0.1998 (8) | 0.2931 (7) | 0.096 (7) | |
O3 | 0.3741 (11) | 0.1250 | 0.1250 | 0.052 (4) | |
O4 | 0.1715 (6) | 0.1715 (6) | 0.1715 (6) | 0.106 (13) | |
Na | 0.5000 | 0.5000 | 0.5000 | 0.050* | 0.05 (4) |
C1 | 0.0000 | 0.0000 | 0.0000 | 0.052 (11) | |
C2B | 0.400 (4) | 0.400 (4) | 0.400 (4) | 0.050* | 0.28 (9) |
C2C | 0.361 (4) | 0.361 (4) | 0.298 (6) | 0.050* | 0.18 (5) |
C2D | 0.339 (11) | 0.339 (11) | 0.449 (16) | 0.050* | 0.06 (4) |
C2E | 0.324 (3) | 0.324 (3) | 0.353 (5) | 0.050* | 0.19 (5) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Si1 | 0.0329 (14) | 0.0329 (14) | 0.0139 (15) | 0.0129 (14) | −0.0066 (10) | −0.0066 (10) |
Si2 | 0.0137 (11) | 0.0137 (11) | 0.0137 (11) | −0.0018 (9) | −0.0018 (9) | −0.0018 (9) |
Si3 | 0.0146 (19) | 0.0146 (19) | 0.0146 (19) | 0.000 | 0.000 | 0.000 |
O1 | 0.047 (8) | 0.081 (7) | 0.081 (7) | −0.014 (5) | −0.014 (5) | −0.020 (8) |
O2 | 0.129 (10) | 0.129 (10) | 0.029 (7) | 0.009 (12) | 0.034 (6) | 0.034 (6) |
O3 | 0.069 (13) | 0.044 (6) | 0.044 (6) | 0.000 | 0.000 | −0.001 (8) |
O4 | 0.106 (13) | 0.106 (13) | 0.106 (13) | −0.050 (8) | −0.050 (8) | −0.050 (8) |
C1 | 0.052 (11) | 0.052 (11) | 0.052 (11) | −0.001 (13) | −0.001 (13) | −0.001 (13) |
Si1—O1i | 1.579 (3) | C2B—C2Cxxxv | 1.29 (10) |
Si1—O1ii | 1.579 (3) | C2B—C2Cxxxvi | 1.29 (10) |
Si1—O2iii | 1.556 (13) | C2B—C2Cxxxvii | 1.29 (10) |
Si1—O3iv | 1.579 (4) | C2B—C2Dxxviii | 1.0 (3) |
Si1—Nav | 3.144 (4) | C2B—C2Dvi | 1.0 (3) |
Si1—Navi | 5.616 (4) | C2B—C2Dxxx | 1.0 (3) |
Si2—O2 | 1.556 (12) | C2B—C2Evi | 1.16 (10) |
Si2—O2vii | 1.556 (12) | C2B—C2Exxx | 1.16 (10) |
Si2—O2viii | 1.556 (12) | C2B—C2Exxviii | 1.16 (10) |
Si2—O4 | 1.51 (2) | C2C—C2Bxxxvii | 1.29 (10) |
Si2—Navi | 5.582 (4) | C2C—C2Bxxxv | 1.29 (10) |
Si2—Naix | 5.582 (4) | C2C—C2Cvi | 0.8 (2) |
Si2—Nax | 5.582 (4) | C2C—C2Dxxxvi | 1.7 (2) |
Si3—O4 | 1.56 (2) | C2C—C2Dxxxv | 1.1 (3) |
Si3—O4xi | 1.57 (2) | C2C—C2Dxxxvii | 1.1 (3) |
Si3—O4iii | 1.57 (2) | C2C—C2Dxxxiii | 1.7 (2) |
Si3—O4xii | 1.57 (2) | C2C—C2Exxxiii | 1.54 (11) |
O1—Si1xiii | 1.579 (3) | C2C—C2Exxxvi | 1.54 (11) |
O1—Si1xiv | 1.579 (3) | C2C—C2Evii | 0.88 (10) |
O1—Naxv | 2.580 (17) | C2C—C2Eviii | 0.88 (10) |
O2—Si1iii | 1.556 (13) | C2C—C2E | 1.46 (15) |
O2—Navi | 4.249 (18) | C2D—C2Bvi | 1.0 (3) |
O3—Si1xvi | 1.579 (4) | C2D—C2Cxxxv | 1.1 (3) |
O3—Si1viii | 1.579 (4) | C2D—C2Cxxxvii | 1.1 (3) |
O3—Naxvii | 4.215 (12) | C2D—C2Cxxx | 1.7 (2) |
O3—Naix | 4.215 (12) | C2D—C2Cxxviii | 1.7 (2) |
Na—Si1xviii | 3.144 (4) | C2D—C2Dxxxiv | 1.0 (5) |
Na—Si1xix | 3.144 (4) | C2D—C2Dxxxii | 1.0 (5) |
Na—Si1xx | 3.144 (4) | C2D—C2Exxx | 1.8 (3) |
Na—O1xxi | 2.580 (17) | C2D—C2Exxviii | 1.8 (3) |
Na—O1xxii | 2.580 (17) | C2D—C2E | 1.9 (3) |
Na—O1xxiii | 2.580 (17) | C2D—C2Exxxii | 1.2 (2) |
Na—O1xxiv | 2.580 (17) | C2D—C2Exxxiv | 1.2 (2) |
Na—O1xxv | 2.580 (17) | C2E—C2Bvi | 1.16 (10) |
Na—O1xxvi | 2.580 (17) | C2E—C2Bxxxvii | 1.56 (10) |
Na—C2Dxxvii | 2.6 (3) | C2E—C2Bxxxv | 1.56 (10) |
Na—C2Dxxviii | 2.6 (3) | C2E—C2Cxxviii | 1.54 (11) |
Na—C2Dxxix | 2.6 (3) | C2E—C2Cxxx | 1.54 (11) |
Na—C2Dxxx | 2.6 (3) | C2E—C2Cviii | 0.88 (10) |
Na—C2Dxxxi | 2.6 (3) | C2E—C2Cvii | 0.88 (10) |
Na—C2Dvi | 2.6 (3) | C2E—C2Dxxxiv | 1.2 (2) |
C2B—C2Cxxxii | 1.29 (10) | C2E—C2Dxxxii | 1.2 (2) |
C2B—C2Cxxxiii | 1.29 (10) | C2E—C2Evii | 0.79 (15) |
C2B—C2Cxxxiv | 1.29 (10) | C2E—C2Eviii | 0.79 (15) |
O1i—Si1—O1ii | 109.5 (12) | C2Exxviii—C2B—C2Cxxxiii | 78 (5) |
O1i—Si1—O3iv | 109.4 (5) | C2Exxx—C2B—C2Cxxxvi | 78 (5) |
O1ii—Si1—O3iv | 109.4 (5) | C2Exxx—C2B—C2Cxxxiv | 42 (5) |
O1ii—Si1—Navi | 96.64 (15) | C2Exxx—C2B—C2Cxxxiii | 162 (5) |
O1ii—Si1—Nav | 54.8 (6) | C2Exxx—C2B—C2Cxxxii | 162 (5) |
O1i—Si1—Navi | 96.64 (15) | C2Exxx—C2B—C2Cxxxv | 78 (5) |
O1i—Si1—Nav | 54.8 (6) | C2Exxx—C2B—C2Cxxxvii | 42 (5) |
O2iii—Si1—O1ii | 108.7 (5) | C2Exxviii—C2B—C2Cxxxv | 42 (5) |
O2iii—Si1—O1i | 108.7 (5) | C2Evi—C2B—C2Cxxxii | 78 (5) |
O2iii—Si1—O3iv | 111.2 (12) | C2Exxviii—C2B—C2Cxxxvii | 78 (5) |
O2iii—Si1—Navi | 134.7 (9) | C2Evi—C2B—C2Cxxxvi | 42 (5) |
O2iii—Si1—Nav | 126.0 (9) | C2Exxviii—C2B—C2Evi | 119.8 (12) |
O3iv—Si1—Nav | 122.8 (8) | C2Exxx—C2B—C2Evi | 119.8 (12) |
O3iv—Si1—Navi | 23.5 (8) | C2Exxx—C2B—C2Exxviii | 119.8 (12) |
Nav—Si1—Navi | 99.31 (7) | C2Bxxxv—C2C—C2Bxxxvii | 65 (10) |
O2—Si2—O2vii | 110.8 (8) | C2Bxxxv—C2C—C2Dxxxiii | 35 (8) |
O2—Si2—O2viii | 110.8 (8) | C2Bxxxvii—C2C—C2Dxxxiii | 97 (10) |
O2viii—Si2—O2vii | 110.8 (8) | C2Bxxxv—C2C—C2Dxxxvi | 97 (10) |
O2vii—Si2—Naix | 96.8 (7) | C2Bxxxvii—C2C—C2Dxxxvi | 35 (8) |
O2viii—Si2—Naix | 26.6 (9) | C2Bxxxvii—C2C—C2Exxxiii | 66 (7) |
O2—Si2—Navi | 26.6 (9) | C2Bxxxvii—C2C—C2Exxxvi | 47 (5) |
O2viii—Si2—Nax | 96.8 (7) | C2Bxxxv—C2C—C2Exxxvi | 66 (7) |
O2viii—Si2—Navi | 96.8 (7) | C2Bxxxv—C2C—C2Exxxiii | 47 (5) |
O2—Si2—Naix | 96.8 (7) | C2Bxxxv—C2C—C2E | 69 (7) |
O2—Si2—Nax | 96.8 (7) | C2Bxxxvii—C2C—C2E | 69 (7) |
O2vii—Si2—Navi | 96.8 (7) | C2Cvi—C2C—C2Bxxxvii | 72 (5) |
O2vii—Si2—Nax | 26.6 (9) | C2Cvi—C2C—C2Bxxxv | 72 (5) |
O4—Si2—O2viii | 108.1 (9) | C2Cvi—C2C—C2Dxxxvi | 94 (9) |
O4—Si2—O2vii | 108.1 (9) | C2Cvi—C2C—C2Dxxxv | 68 (8) |
O4—Si2—O2 | 108.1 (9) | C2Cvi—C2C—C2Dxxxiii | 94 (9) |
O4—Si2—Naix | 134.76 (4) | C2Cvi—C2C—C2Dxxxvii | 68 (8) |
O4—Si2—Nax | 134.76 (4) | C2Cvi—C2C—C2Eviii | 133 (10) |
O4—Si2—Navi | 134.76 (4) | C2Cvi—C2C—C2E | 133 (6) |
Nax—Si2—Navi | 75.90 (6) | C2Cvi—C2C—C2Exxxvi | 25 (5) |
Naix—Si2—Navi | 75.90 (6) | C2Cvi—C2C—C2Evii | 133 (10) |
Nax—Si2—Naix | 75.90 (6) | C2Cvi—C2C—C2Exxxiii | 25 (5) |
O4xii—Si3—O4iii | 109.471 (2) | C2Dxxxvii—C2C—C2Bxxxv | 49 (10) |
O4xii—Si3—O4xi | 109.471 (1) | C2Dxxxv—C2C—C2Bxxxv | 109 (10) |
O4—Si3—O4xii | 109.471 (2) | C2Dxxxv—C2C—C2Bxxxvii | 49 (10) |
O4—Si3—O4xi | 109.471 (4) | C2Dxxxvii—C2C—C2Bxxxvii | 109 (10) |
O4xi—Si3—O4iii | 109.471 (1) | C2Dxxxvi—C2C—C2Dxxxiii | 123 (10) |
O4—Si3—O4iii | 109.5 | C2Dxxxv—C2C—C2Dxxxiii | 144 (10) |
Si1xiv—O1—Si1xiii | 169.6 (12) | C2Dxxxvii—C2C—C2Dxxxiii | 36 (10) |
Si1xiii—O1—Naxv | 95.2 (6) | C2Dxxxv—C2C—C2Dxxxvi | 36 (10) |
Si1xiv—O1—Naxv | 95.2 (6) | C2Dxxxvii—C2C—C2Dxxxv | 135 (10) |
Si1iii—O2—Navi | 36.8 (6) | C2Dxxxvii—C2C—C2Dxxxvi | 144 (10) |
Si2—O2—Si1iii | 179.3 (19) | C2Dxxxv—C2C—C2Exxxiii | 83 (10) |
Si2—O2—Navi | 143.9 (11) | C2Dxxxv—C2C—C2Exxxvi | 53 (10) |
Si1viii—O3—Si1xvi | 173.3 (16) | C2Dxxxvii—C2C—C2E | 102 (10) |
Si1xvi—O3—Naix | 38.8 (6) | C2Dxxxvii—C2C—C2Exxxvi | 83 (10) |
Si1viii—O3—Naxvii | 38.8 (6) | C2Dxxxv—C2C—C2E | 102 (10) |
Si1xvi—O3—Naxvii | 147.9 (10) | C2Dxxxvii—C2C—C2Exxxiii | 53 (10) |
Si1viii—O3—Naix | 147.9 (10) | C2Evii—C2C—C2Bxxxv | 90 (10) |
Naix—O3—Naxvii | 109.1 (5) | C2Eviii—C2C—C2Bxxxvii | 90 (10) |
Si2—O4—Si3 | 180.0 (8) | C2Evii—C2C—C2Bxxxvii | 61 (9) |
Si1xix—Na—Si1xx | 180.00 (10) | C2Eviii—C2C—C2Bxxxv | 61 (9) |
Si1xviii—Na—Si1xix | 119.975 (4) | C2Evii—C2C—C2Dxxxvi | 44 (10) |
Si1xviii—Na—Si1xx | 60.025 (4) | C2Evii—C2C—C2Dxxxiii | 94 (10) |
O1xxvi—Na—Si1xx | 90.0 | C2Exxxiii—C2C—C2Dxxxiii | 72 (9) |
O1xxv—Na—Si1xviii | 30.013 (2) | C2Eviii—C2C—C2Dxxxvii | 79 (10) |
O1xxi—Na—Si1xx | 30.013 (2) | C2E—C2C—C2Dxxxvi | 67 (10) |
O1xxiii—Na—Si1xix | 149.987 (2) | C2Eviii—C2C—C2Dxxxv | 130 (10) |
O1xxvi—Na—Si1xviii | 149.987 (2) | C2E—C2C—C2Dxxxiii | 67 (10) |
O1xxv—Na—Si1xx | 90.0 | C2Exxxvi—C2C—C2Dxxxiii | 98 (10) |
O1xxii—Na—Si1xx | 149.987 (2) | C2Eviii—C2C—C2Dxxxvi | 94 (10) |
O1xxiii—Na—Si1xx | 30.013 (2) | C2Eviii—C2C—C2Dxxxiii | 44 (10) |
O1xxvi—Na—Si1xix | 90.0 | C2Exxxvi—C2C—C2Dxxxvi | 72 (9) |
O1xxiii—Na—Si1xviii | 90.0 | C2Evii—C2C—C2Dxxxvii | 130 (10) |
O1xxiv—Na—Si1xix | 30.013 (2) | C2Evii—C2C—C2Dxxxv | 79 (10) |
O1xxi—Na—Si1xix | 149.987 (2) | C2Exxxiii—C2C—C2Dxxxvi | 98 (10) |
O1xxiv—Na—Si1xviii | 149.987 (2) | C2Evii—C2C—C2Exxxvi | 108 (10) |
O1xxii—Na—Si1xviii | 90.000 (1) | C2E—C2C—C2Exxxiii | 112 (10) |
O1xxi—Na—Si1xviii | 30.013 (2) | C2Evii—C2C—C2Exxxiii | 123 (10) |
O1xxii—Na—Si1xix | 30.013 (2) | C2Eviii—C2C—C2Exxxiii | 108 (10) |
O1xxiv—Na—Si1xx | 149.987 (2) | C2E—C2C—C2Exxxvi | 112 (10) |
O1xxv—Na—Si1xix | 90.0 | C2Eviii—C2C—C2E | 28 (7) |
O1xxii—Na—O1xxv | 60.000 (1) | C2Evii—C2C—C2Eviii | 54 (10) |
O1xxiv—Na—O1xxv | 120.000 (1) | C2Eviii—C2C—C2Exxxvi | 123 (10) |
O1xxi—Na—O1xxvi | 120.000 (1) | C2Exxxvi—C2C—C2Exxxiii | 30 (7) |
O1xxiii—Na—O1xxii | 180.0 | C2Evii—C2C—C2E | 28 (7) |
O1xxiii—Na—O1xxv | 120.000 (1) | C2Bvi—C2D—C2Cxxviii | 48 (9) |
O1xxiv—Na—O1xxii | 60.000 (1) | C2Bvi—C2D—C2Cxxx | 48 (9) |
O1xxi—Na—O1xxiii | 60.0 | C2Bvi—C2D—C2Cxxxv | 78 (10) |
O1xxiv—Na—O1xxvi | 60.000 (1) | C2Bvi—C2D—C2Cxxxvii | 78 (10) |
O1xxii—Na—O1xxvi | 120.000 (1) | C2Bvi—C2D—C2Dxxxiv | 58 (10) |
O1xxiv—Na—O1xxi | 180.0 | C2Bvi—C2D—C2Dxxxii | 58 (10) |
O1xxv—Na—O1xxvi | 180.0 | C2Bvi—C2D—C2Exxviii | 62 (10) |
O1xxiv—Na—O1xxiii | 120.000 (1) | C2Bvi—C2D—C2Exxx | 62 (10) |
O1xxiii—Na—O1xxvi | 60.000 (1) | C2Bvi—C2D—C2Exxxii | 61 (10) |
O1xxi—Na—O1xxii | 120.000 (1) | C2Bvi—C2D—C2Exxxiv | 61 (10) |
O1xxi—Na—O1xxv | 60.000 (1) | C2Bvi—C2D—C2E | 30 (10) |
O1xxvi—Na—C2Dxxxi | 79 (6) | C2Cxxxvii—C2D—C2Cxxviii | 105 (10) |
O1xxiii—Na—C2Dxxix | 101 (5) | C2Cxxxvii—C2D—C2Cxxx | 73 (10) |
O1xxiv—Na—C2Dxxx | 101 (5) | C2Cxxx—C2D—C2Cxxviii | 95 (10) |
O1xxiv—Na—C2Dvi | 89.996 (18) | C2Cxxxvii—C2D—C2Cxxxv | 44 (10) |
O1xxiii—Na—C2Dxxvii | 90.00 (3) | C2Cxxxv—C2D—C2Cxxx | 105 (10) |
O1xxi—Na—C2Dxxvii | 79 (5) | C2Cxxxv—C2D—C2Cxxviii | 73 (10) |
O1xxvi—Na—C2Dxxx | 89.996 (6) | C2Cxxxvii—C2D—C2Exxxiv | 44 (10) |
O1xxii—Na—C2Dxxvii | 90.004 (12) | C2Cxxviii—C2D—C2Exxx | 101 (10) |
O1xxii—Na—C2Dxxviii | 90.00 (3) | C2Cxxxv—C2D—C2E | 105 (10) |
O1xxvi—Na—C2Dxxvii | 101 (6) | C2Cxxx—C2D—C2Exxviii | 101 (10) |
O1xxii—Na—C2Dxxxi | 101 (5) | C2Cxxviii—C2D—C2E | 50 (9) |
O1xxi—Na—C2Dxxx | 79 (5) | C2Cxxxvii—C2D—C2Exxxii | 84 (10) |
O1xxv—Na—C2Dxxxi | 101 (5) | C2Cxxxvii—C2D—C2Exxx | 23 (10) |
O1xxv—Na—C2Dxxx | 90.00 (4) | C2Cxxx—C2D—C2E | 50 (9) |
O1xxiv—Na—C2Dxxix | 79 (5) | C2Cxxxv—C2D—C2Exxx | 60 (10) |
O1xxii—Na—C2Dxxix | 79 (5) | C2Cxxxv—C2D—C2Exxviii | 23 (10) |
O1xxv—Na—C2Dxxix | 89.996 (6) | C2Cxxx—C2D—C2Exxx | 50 (8) |
O1xxvi—Na—C2Dxxviii | 79 (5) | C2Cxxxvii—C2D—C2E | 105 (10) |
O1xxi—Na—C2Dxxix | 101 (5) | C2Cxxxv—C2D—C2Exxxii | 44 (10) |
O1xxiii—Na—C2Dvi | 101 (5) | C2Cxxxv—C2D—C2Exxxiv | 84 (10) |
O1xxv—Na—C2Dxxvii | 79 (5) | C2Cxxviii—C2D—C2Exxviii | 50 (8) |
O1xxii—Na—C2Dvi | 79 (5) | C2Cxxxvii—C2D—C2Exxviii | 60 (10) |
O1xxvi—Na—C2Dxxix | 90.00 (4) | C2Dxxxii—C2D—C2Cxxviii | 86 (9) |
O1xxv—Na—C2Dvi | 79 (5) | C2Dxxxii—C2D—C2Cxxx | 36 (10) |
O1xxiv—Na—C2Dxxvii | 101 (5) | C2Dxxxiv—C2D—C2Cxxxvii | 134 (10) |
O1xxvi—Na—C2Dvi | 101 (5) | C2Dxxxiv—C2D—C2Cxxxv | 109 (10) |
O1xxiv—Na—C2Dxxxi | 90.00 (3) | C2Dxxxiv—C2D—C2Cxxx | 86 (9) |
O1xxiv—Na—C2Dxxviii | 79 (5) | C2Dxxxii—C2D—C2Cxxxvii | 108 (10) |
O1xxiii—Na—C2Dxxx | 79 (5) | C2Dxxxii—C2D—C2Cxxxv | 134 (10) |
O1xxi—Na—C2Dxxviii | 101 (6) | C2Dxxxiv—C2D—C2Cxxviii | 36 (10) |
O1xxi—Na—C2Dxxxi | 89.996 (17) | C2Dxxxii—C2D—C2Dxxxiv | 60.00 (8) |
O1xxiii—Na—C2Dxxviii | 90.004 (12) | C2Dxxxiv—C2D—C2Exxxii | 65 (10) |
O1xxv—Na—C2Dxxviii | 101 (6) | C2Dxxxiv—C2D—C2E | 37 (5) |
O1xxii—Na—C2Dxxx | 101 (6) | C2Dxxxii—C2D—C2Exxx | 86 (9) |
O1xxiii—Na—C2Dxxxi | 79 (5) | C2Dxxxii—C2D—C2E | 37 (5) |
O1xxi—Na—C2Dvi | 90.00 (3) | C2Dxxxiv—C2D—C2Exxx | 120 (10) |
C2Dxxviii—Na—Si1xviii | 104 (6) | C2Dxxxii—C2D—C2Exxviii | 120 (10) |
C2Dxxxi—Na—Si1xix | 96 (3) | C2Dxxxii—C2D—C2Exxxiv | 65 (10) |
C2Dxxx—Na—Si1xx | 76 (6) | C2Dxxxiv—C2D—C2Exxxiv | 113 (10) |
C2Dvi—Na—Si1xx | 96 (3) | C2Dxxxiv—C2D—C2Exxviii | 86 (9) |
C2Dxxviii—Na—Si1xx | 96 (3) | C2Dxxxii—C2D—C2Exxxii | 113 (10) |
C2Dxxvii—Na—Si1xx | 84 (3) | C2Exxxii—C2D—C2Cxxviii | 30 (7) |
C2Dxxxi—Na—Si1xx | 84 (3) | C2Exxxiv—C2D—C2Cxxviii | 109 (10) |
C2Dxxvii—Na—Si1xviii | 76 (6) | C2Exxxii—C2D—C2Cxxx | 109 (10) |
C2Dxxxi—Na—Si1xviii | 96 (3) | C2Exxxiv—C2D—C2Cxxx | 30 (7) |
C2Dvi—Na—Si1xix | 84 (3) | C2Exxxiv—C2D—C2Exxviii | 90 (10) |
C2Dvi—Na—Si1xviii | 84 (3) | C2Exxx—C2D—C2Exxviii | 69 (10) |
C2Dxxx—Na—Si1xviii | 84 (3) | C2Exxxiv—C2D—C2E | 76 (10) |
C2Dxxviii—Na—Si1xix | 84 (3) | C2Exxxiv—C2D—C2Exxx | 24 (8) |
C2Dxxix—Na—Si1xx | 104 (6) | C2Exxviii—C2D—C2E | 86 (10) |
C2Dxxx—Na—Si1xix | 104 (6) | C2Exxxii—C2D—C2Exxx | 90 (10) |
C2Dxxix—Na—Si1xviii | 96 (3) | C2Exxxii—C2D—C2E | 76 (10) |
C2Dxxix—Na—Si1xix | 76 (6) | C2Exxxii—C2D—C2Exxxiv | 108 (10) |
C2Dxxvii—Na—Si1xix | 96 (3) | C2Exxxii—C2D—C2Exxviii | 24 (8) |
C2Dxxx—Na—C2Dvi | 23 (10) | C2Exxx—C2D—C2E | 86 (10) |
C2Dxxx—Na—C2Dxxix | 180.00 (2) | C2Bxxxv—C2E—C2Bxxxvii | 52 (7) |
C2Dxxviii—Na—C2Dxxx | 23 (10) | C2Bvi—C2E—C2Bxxxvii | 59 (10) |
C2Dxxviii—Na—C2Dxxvii | 180 (7) | C2Bvi—C2E—C2Bxxxv | 59 (10) |
C2Dxxvii—Na—C2Dxxxi | 23 (10) | C2Bvi—C2E—C2Cxxx | 55 (5) |
C2Dxxx—Na—C2Dxxxi | 157 (10) | C2Bvi—C2E—C2C | 99 (10) |
C2Dxxviii—Na—C2Dxxix | 157 (10) | C2Bvi—C2E—C2Cxxviii | 55 (5) |
C2Dxxix—Na—C2Dvi | 157 (10) | C2Bvi—C2E—C2Dxxxiv | 49 (10) |
C2Dxxviii—Na—C2Dvi | 23 (10) | C2Bvi—C2E—C2Dxxxii | 49 (10) |
C2Dxxix—Na—C2Dxxxi | 23 (10) | C2Cvii—C2E—C2Bxxxv | 56 (9) |
C2Dxxvii—Na—C2Dvi | 157 (10) | C2C—C2E—C2Bxxxvii | 50 (5) |
C2Dxxvii—Na—C2Dxxx | 157 (10) | C2Cxxviii—C2E—C2Bxxxv | 94 (8) |
C2Dxxviii—Na—C2Dxxxi | 157 (10) | C2Cxxx—C2E—C2Bxxxvii | 94 (8) |
C2Dxxvii—Na—C2Dxxix | 23 (10) | C2Cviii—C2E—C2Bvi | 77 (10) |
C2Dxxxi—Na—C2Dvi | 180.00 (2) | C2Cxxx—C2E—C2Bxxxv | 49 (4) |
C2Cxxxii—C2B—C2Cxxxiii | 36 (10) | C2Cvii—C2E—C2Bvi | 77 (10) |
C2Cxxxii—C2B—C2Cxxxvi | 120.0 (4) | C2Cviii—C2E—C2Bxxxvii | 56 (9) |
C2Cxxxv—C2B—C2Cxxxvi | 156 (10) | C2Cviii—C2E—C2Bxxxv | 107 (10) |
C2Cxxxvii—C2B—C2Cxxxv | 36 (10) | C2C—C2E—C2Bxxxv | 50 (5) |
C2Cxxxiv—C2B—C2Cxxxvi | 36 (10) | C2Cxxviii—C2E—C2Bxxxvii | 49 (4) |
C2Cxxxvii—C2B—C2Cxxxvi | 120.0 (4) | C2Cvii—C2E—C2Bxxxvii | 107 (10) |
C2Cxxxii—C2B—C2Cxxxvii | 120.0 (5) | C2Cvii—C2E—C2Cxxx | 22 (8) |
C2Cxxxii—C2B—C2Cxxxiv | 156 (10) | C2Cviii—C2E—C2Cxxviii | 22 (8) |
C2Cxxxiii—C2B—C2Cxxxvii | 156 (10) | C2C—C2E—C2Cxxx | 96 (6) |
C2Cxxxiii—C2B—C2Cxxxvi | 84 (10) | C2Cxxviii—C2E—C2Cxxx | 110 (10) |
C2Cxxxiv—C2B—C2Cxxxvii | 84 (10) | C2Cviii—C2E—C2C | 91 (7) |
C2Cxxxiii—C2B—C2Cxxxiv | 120.0 (4) | C2C—C2E—C2Cxxviii | 96 (6) |
C2Cxxxiii—C2B—C2Cxxxv | 120.0 (4) | C2Cvii—C2E—C2Cxxviii | 132 (10) |
C2Cxxxiv—C2B—C2Cxxxv | 120.0 (4) | C2Cviii—C2E—C2Cxxx | 132 (10) |
C2Cxxxii—C2B—C2Cxxxv | 84 (10) | C2Cvii—C2E—C2C | 91 (7) |
C2Dxxviii—C2B—C2Cxxxii | 116 (10) | C2Cvii—C2E—C2Cviii | 154 (10) |
C2Dxxviii—C2B—C2Cxxxvii | 96 (7) | C2Cviii—C2E—C2Dxxxii | 106 (10) |
C2Dxxx—C2B—C2Cxxxv | 96 (7) | C2Cvii—C2E—C2Dxxxii | 57 (10) |
C2Dxxx—C2B—C2Cxxxvi | 96 (7) | C2Cviii—C2E—C2Dxxxiv | 57 (10) |
C2Dxxviii—C2B—C2Cxxxv | 116 (10) | C2Cvii—C2E—C2Dxxxiv | 106 (10) |
C2Dvi—C2B—C2Cxxxv | 53 (10) | C2Dxxxiv—C2E—C2Bxxxvii | 86 (10) |
C2Dvi—C2B—C2Cxxxiv | 96 (7) | C2Dxxxii—C2E—C2Bxxxvii | 107 (10) |
C2Dvi—C2B—C2Cxxxii | 96 (7) | C2Dxxxiv—C2E—C2Bxxxv | 107 (10) |
C2Dvi—C2B—C2Cxxxiii | 116 (10) | C2Dxxxii—C2E—C2Bxxxv | 86 (10) |
C2Dxxx—C2B—C2Cxxxvii | 116 (10) | C2Dxxxii—C2E—C2Cxxx | 43 (10) |
C2Dxxx—C2B—C2Cxxxiii | 53 (10) | C2Dxxxiv—C2E—C2Cxxx | 88 (10) |
C2Dxxx—C2B—C2Cxxxii | 53 (10) | C2Dxxxii—C2E—C2C | 136 (10) |
C2Dxxviii—C2B—C2Cxxxiv | 53 (10) | C2Dxxxiv—C2E—C2C | 136 (10) |
C2Dxxviii—C2B—C2Cxxxvi | 53 (10) | C2Dxxxii—C2E—C2Cxxviii | 88 (10) |
C2Dxxx—C2B—C2Cxxxiv | 116 (10) | C2Dxxxiv—C2E—C2Cxxviii | 43 (10) |
C2Dxxviii—C2B—C2Cxxxiii | 96 (7) | C2Dxxxii—C2E—C2Dxxxiv | 50 (10) |
C2Dvi—C2B—C2Cxxxvii | 53 (10) | C2Eviii—C2E—C2Bxxxv | 46 (5) |
C2Dvi—C2B—C2Cxxxvi | 116 (10) | C2Eviii—C2E—C2Bvi | 104 (7) |
C2Dxxviii—C2B—C2Dxxx | 64 (10) | C2Evii—C2E—C2Bxxxv | 75 (3) |
C2Dvi—C2B—C2Dxxx | 64 (10) | C2Evii—C2E—C2Bvi | 104 (7) |
C2Dxxviii—C2B—C2Dvi | 64 (10) | C2Eviii—C2E—C2Bxxxvii | 75 (3) |
C2Dxxviii—C2B—C2Exxviii | 125 (10) | C2Evii—C2E—C2Bxxxvii | 46 (5) |
C2Dvi—C2B—C2Evi | 125 (10) | C2Evii—C2E—C2Cxxx | 124 (4) |
C2Dxxviii—C2B—C2Exxx | 70 (8) | C2Evii—C2E—C2Cvii | 122 (7) |
C2Dxxx—C2B—C2Exxviii | 70 (8) | C2Eviii—C2E—C2Cvii | 63 (6) |
C2Dvi—C2B—C2Exxx | 70 (8) | C2Eviii—C2E—C2Cviii | 122 (7) |
C2Dxxviii—C2B—C2Evi | 70 (8) | C2Evii—C2E—C2Cviii | 63 (6) |
C2Dxxx—C2B—C2Evi | 70 (8) | C2Eviii—C2E—C2C | 30.9 (14) |
C2Dxxx—C2B—C2Exxx | 125 (10) | C2Evii—C2E—C2C | 30.9 (14) |
C2Dvi—C2B—C2Exxviii | 70 (8) | C2Eviii—C2E—C2Cxxx | 75 (3) |
C2Exxviii—C2B—C2Cxxxiv | 162 (5) | C2Evii—C2E—C2Cxxviii | 75 (3) |
C2Evi—C2B—C2Cxxxv | 162 (5) | C2Eviii—C2E—C2Cxxviii | 124 (4) |
C2Evi—C2B—C2Cxxxiv | 78 (5) | C2Evii—C2E—C2Dxxxii | 153 (10) |
C2Exxviii—C2B—C2Cxxxii | 42 (5) | C2Eviii—C2E—C2Dxxxiv | 153 (10) |
C2Evi—C2B—C2Cxxxvii | 162 (5) | C2Evii—C2E—C2Dxxxiv | 118 (10) |
C2Exxviii—C2B—C2Cxxxvi | 162 (5) | C2Eviii—C2E—C2Dxxxii | 118 (10) |
C2Evi—C2B—C2Cxxxiii | 42 (5) | C2Evii—C2E—C2Eviii | 60.01 (3) |
Symmetry codes: (i) y−1/4, −x, z+3/4; (ii) −x, y−1/4, z+3/4; (iii) −x+1/4, −y+1/4, z; (iv) −z+1/4, −y+1/4, x; (v) x−1/2, y−1/2, z; (vi) −x+3/4, −y+3/4, z; (vii) y, z, x; (viii) z, x, y; (ix) −y+1, x−1/4, z−1/4; (x) y−1/4, −x+1, z−1/4; (xi) y, −x+1/4, −z+1/4; (xii) −y+1/4, x, −z+1/4; (xiii) y, −z+3/4, −x−1/4; (xiv) −y, x+1/4, z−3/4; (xv) −y+1/2, x−1/4, z−3/4; (xvi) z, −y+1/4, −x+1/4; (xvii) x, y−1/2, z−1/2; (xviii) z, x+1/2, y+1/2; (xix) y+1/2, z, x+1/2; (xx) −y+1/2, −z+1, −x+1/2; (xxi) z+3/4, y+1/4, −x+1/2; (xxii) x+1/2, −y+3/4, −z+1/4; (xxiii) −x+1/2, y+1/4, z+3/4; (xxiv) −z+1/4, −y+3/4, x+1/2; (xxv) −y+3/4, x+1/2, −z+1/4; (xxvi) y+1/4, −x+1/2, z+3/4; (xxvii) −z+1, y+1/4, x+1/4; (xxviii) z, −y+3/4, −x+3/4; (xxix) x+1/4, −z+1, y+1/4; (xxx) −x+3/4, z, −y+3/4; (xxxi) x+1/4, y+1/4, −z+1; (xxxii) y, −z+3/4, −x+3/4; (xxxiii) −x+3/4, −z+3/4, y; (xxxiv) −z+3/4, x, −y+3/4; (xxxv) y, −x+3/4, −z+3/4; (xxxvi) −z+3/4, −y+3/4, x; (xxxvii) −y+3/4, x, −z+3/4. |
0.02(C16O272Si136)·0.02(C20.75) | F(000) = 4301 |
Mr = 143.59 | Dx = 1.941 Mg m−3 |
Monoclinic, A2/n | Mo Kα radiation, λ = 0.71073 Å |
a = 23.834 (5) Å | Cell parameters from 61878 reflections |
b = 13.760 (5) Å | θ = 3–67° |
c = 23.833 (3) Å | µ = 0.70 mm−1 |
β = 109.47° | T = 200 K |
V = 7369 (3) Å3 | Platelet |
Z = 60 |
StoeStadiVari diffractometer | θmax = 33.3°, θmin = 2.1° |
92816 measured reflections | h = −28→36 |
19260 independent reflections | k = −21→20 |
7236 reflections with I > 2σ(I) | l = −36→20 |
Rint = 0.085 |
Refinement on F2 | 214 parameters |
Least-squares matrix: full | 0 restraints |
R[F2 > 2σ(F2)] = 0.088 | w = 1/[σ2(Fo2) + (0.1495P)2] where P = (Fo2 + 2Fc2)/3 |
wR(F2) = 0.278 | (Δ/σ)max = 0.100 |
S = 0.92 | Δρmax = 1.40 e Å−3 |
19260 reflections | Δρmin = −1.69 e Å−3 |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
Refinement. Refined as a 2-component twin. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1A | 0.01107 (7) | 0.99967 (14) | 0.14327 (7) | 0.01350 (12)* | |
Si1B | 0.18520 (8) | 0.19988 (13) | 0.25483 (8) | 0.01350 (12)* | |
Si1C | 0.18559 (8) | 0.78844 (13) | 0.25663 (8) | 0.01350 (12)* | |
Si1D | 0.99798 (8) | 0.31177 (13) | 0.43485 (8) | 0.01350 (12)* | |
Si1E | 0.99794 (8) | 0.69066 (13) | 0.43375 (8) | 0.01350 (12)* | |
Si1F | 0.18532 (8) | 0.88669 (13) | 0.57000 (8) | 0.01350 (12)* | |
Si1G | 0.18662 (8) | 0.11631 (13) | 0.56482 (8) | 0.01350 (12)* | |
Si1H | 0.18312 (8) | 0.31245 (13) | 0.37038 (8) | 0.01350 (12)* | |
Si1I | 0.18278 (8) | 0.68899 (13) | 0.37630 (8) | 0.01350 (12)* | |
Si1J | 0.12962 (7) | 0.99497 (13) | 0.25655 (7) | 0.01350 (12)* | |
Si1K | 0.11185 (8) | 0.81597 (13) | 0.43982 (8) | 0.01350 (12)* | |
Si1L | 0.11143 (8) | 0.19055 (13) | 0.43516 (8) | 0.01350 (12)* | |
Si2A | 0.89199 (7) | 0.99743 (13) | 0.17347 (7) | 0.01223 (16)* | |
Si2B | 0.10909 (8) | 0.67987 (12) | 0.14101 (8) | 0.01223 (16)* | |
Si2C | 0.89336 (8) | 0.18425 (12) | 0.35639 (8) | 0.01223 (16)* | |
Si2D | 0.07455 (7) | 0.00068 (13) | 0.35868 (7) | 0.01223 (16)* | |
Si3 | 0.93784 (8) | −0.00081 (13) | 0.31005 (8) | 0.0139 (3)* | |
O1A | 0.2500 | 0.2121 (7) | 0.2500 | 0.0360 (4)* | |
O1B | 0.2500 | 0.7790 (7) | 0.2500 | 0.0360 (4)* | |
O1C | 0.0072 (3) | 0.9032 (5) | 0.1049 (3) | 0.0360 (4)* | |
O1D | 0.2500 (3) | 0.8401 (5) | 0.5896 (3) | 0.0360 (4)* | |
O1E | 1.0003 (3) | 0.3393 (5) | 0.5011 (3) | 0.0360 (4)* | |
O1F | 0.3542 (3) | 0.6540 (5) | 0.4997 (3) | 0.0360 (4)* | |
O1G | 0.1472 (3) | 0.8392 (5) | 0.5080 (3) | 0.0360 (4)* | |
O1H | 0.1566 (3) | 0.2483 (5) | 0.4108 (3) | 0.0360 (4)* | |
O1I | 0.1698 (3) | 0.9003 (5) | 0.2560 (3) | 0.0360 (4)* | |
O1J | 0.1552 (3) | 0.7629 (5) | 0.4118 (3) | 0.0360 (4)* | |
O1K | 0.0123 (3) | 0.0931 (5) | 0.1041 (3) | 0.0360 (4)* | |
O1L | 0.2515 (3) | 0.1619 (5) | 0.5797 (3) | 0.0360 (4)* | |
O1M | 0.1715 (3) | 0.0869 (5) | 0.2574 (3) | 0.0360 (4)* | |
O2A | 0.1369 (3) | 0.7351 (5) | 0.2022 (3) | 0.0408 (5)* | |
O2B | 0.8636 (3) | 0.2573 (5) | 0.3034 (3) | 0.0408 (5)* | |
O2C | 0.8585 (3) | 0.9040 (5) | 0.1383 (3) | 0.0408 (5)* | |
O2D | 0.0603 (3) | 0.7442 (5) | 0.0941 (3) | 0.0408 (5)* | |
O2E | 0.9426 (3) | 0.2402 (5) | 0.4083 (3) | 0.0408 (5)* | |
O2F | 0.0828 (3) | 0.1023 (6) | 0.3922 (3) | 0.0408 (5)* | |
O2G | 0.8455 (3) | 0.1387 (5) | 0.3806 (3) | 0.0408 (5)* | |
O2H | 0.1141 (3) | 0.9928 (5) | 0.3173 (3) | 0.0408 (5)* | |
O2I | 0.0894 (3) | 0.9157 (5) | 0.4064 (3) | 0.0408 (5)* | |
O2J | 0.1597 (3) | 0.6533 (5) | 0.1140 (3) | 0.0408 (5)* | |
O2K | 0.8557 (3) | 0.0921 (5) | 0.1474 (3) | 0.0408 (5)* | |
O2L | 0.9558 (3) | 0.0054 (5) | 0.1660 (3) | 0.0408 (5)* | |
O3A | 0.0706 (3) | 0.9977 (5) | 0.2000 (3) | 0.0359 (5)* | |
O3B | 0.1905 (3) | 0.0008 (5) | 0.5641 (3) | 0.0359 (5)* | |
O3C | 0.9414 (3) | 0.2380 (5) | 0.0635 (3) | 0.0359 (5)* | |
O3D | 0.0558 (3) | 0.7483 (5) | 0.4362 (3) | 0.0359 (5)* | |
O3E | 0.1861 (3) | 0.7387 (5) | 0.3174 (3) | 0.0359 (5)* | |
O3F | 0.1824 (3) | 0.2540 (5) | 0.3127 (3) | 0.0359 (5)* | |
O4A | 0.0065 (4) | 0.9927 (6) | 0.3165 (4) | 0.0452 (8)* | |
O4B | 0.9277 (4) | 0.1027 (6) | 0.3329 (3) | 0.0452 (8)* | |
O4C | 0.8989 (4) | 0.9845 (6) | 0.2414 (4) | 0.0452 (8)* | |
O4D | 0.9231 (4) | 0.9179 (6) | 0.3499 (3) | 0.0452 (8)* | |
C1A | 0.0000 | 0.2500 | 0.2500 | 0.058 (4)* | |
C1B | 0.0000 | 0.2500 | 0.7500 | 0.065 (5)* | |
C1C | 0.7500 | 0.0013 (15) | 0.2500 | 0.061 (5)* | |
C1D | 0.0000 | 0.0000 | 0.5000 | 0.051 (4)* | |
C2A | 0.808 (2) | 0.409 (4) | 0.404 (2) | 0.050* | 0.27 (3) |
C2B | 0.280 (2) | 0.928 (4) | 0.424 (2) | 0.050* | 0.24 (3) |
C2C | 0.854 (6) | 0.148 (9) | −0.046 (6) | 0.050* | 0.10 (3) |
C2D | 0.272 (3) | 0.071 (4) | 0.429 (3) | 0.050* | 0.22 (3) |
C2E | 0.185 (3) | 0.050 (5) | 0.110 (3) | 0.050* | 0.22 (4) |
C2F | 0.1866 (18) | 0.930 (3) | 0.1057 (18) | 0.050* | 0.32 (3) |
C2G | 0.202 (3) | 0.573 (5) | 0.536 (3) | 0.050* | 0.20 (3) |
C2H | 0.234 (2) | 0.002 (3) | 0.437 (2) | 0.050* | 0.29 (4) |
C2I | 0.345 (7) | 0.040 (11) | 0.504 (6) | 0.050* | 0.09 (3) |
C2J | 0.290 (2) | 0.922 (4) | 0.466 (2) | 0.050* | 0.25 (3) |
C2K | 0.868 (2) | 0.496 (4) | 0.453 (3) | 0.050* | 0.24 (4) |
C2L | 0.879 (3) | 0.504 (5) | 0.489 (4) | 0.050* | 0.17 (4) |
Si1A—O1C | 1.598 (7) | O2H—C1Biii | 4.269 (8) |
Si1A—O1Ki | 1.595 (7) | O2I—Si2Di | 1.586 (8) |
Si1A—O2Lii | 1.583 (7) | O2I—C1Biii | 4.283 (8) |
Si1A—O3A | 1.600 (7) | O2I—C1Di | 3.746 (7) |
Si1A—C1Ai | 4.342 (2) | O2J—Si1Giii | 1.596 (7) |
Si1A—C1Biii | 4.335 (2) | O2J—C1Civ | 3.874 (13) |
Si1B—O1A | 1.595 (2) | O2J—C1Diii | 4.408 (8) |
Si1B—O1M | 1.594 (7) | O2K—Si1Hiv | 1.581 (8) |
Si1B—O2Biv | 1.597 (8) | O2K—Si2Axvi | 1.572 (8) |
Si1B—O3F | 1.588 (7) | O2K—C1Avi | 4.115 (8) |
Si1B—C1A | 4.431 (2) | O2K—C1C | 4.242 (9) |
Si1B—C1Civ | 4.407 (19) | O2L—Si1Axviii | 1.583 (7) |
Si1C—O1B | 1.600 (2) | O2L—Si2Axvi | 1.594 (8) |
Si1C—O1I | 1.584 (7) | O2L—C1Avi | 3.878 (7) |
Si1C—O2A | 1.602 (8) | O2L—C1Bxix | 4.009 (7) |
Si1C—O3E | 1.598 (7) | O3A—C1Ai | 4.200 (7) |
Si1C—C1Biii | 4.405 (2) | O3A—C1Biii | 4.148 (7) |
Si1C—C1Civ | 4.294 (19) | O3B—Si1Fxvi | 1.586 (7) |
Si1D—O1E | 1.607 (6) | O3B—C1Cxiv | 4.178 (7) |
Si1D—O1Kiv | 1.576 (7) | O3B—C1D | 4.281 (7) |
Si1D—O2E | 1.599 (8) | O3C—Si1Dv | 1.588 (7) |
Si1D—O3Cv | 1.588 (7) | O3C—Si1Liv | 1.606 (7) |
Si1D—C1Avi | 4.5027 (17) | O3C—C1Avi | 4.196 (7) |
Si1D—C1Dvi | 4.557 (2) | O3C—C1Dix | 4.318 (7) |
Si1E—O1Cvii | 1.567 (7) | O3D—Si1Exxi | 1.574 (7) |
Si1E—O1Eviii | 1.593 (6) | O3D—C1Biii | 4.188 (7) |
Si1E—O2Dvii | 1.599 (8) | O3D—C1Di | 4.174 (7) |
Si1E—O3Dvi | 1.574 (7) | O3E—C1Biii | 4.187 (7) |
Si1E—C1Bix | 4.4710 (17) | O3E—C1Civ | 4.176 (17) |
Si1E—C1Dx | 4.535 (2) | O3F—C1A | 4.099 (7) |
Si1F—O1D | 1.589 (7) | O3F—C1Civ | 4.215 (17) |
Si1F—O1G | 1.594 (7) | O4A—Si2Di | 1.602 (9) |
Si1F—O2Gxi | 1.620 (7) | O4A—Si3ii | 1.595 (8) |
Si1F—O3Bi | 1.586 (7) | O4A—C1Ai | 3.861 (8) |
Si1F—C1Cxi | 4.330 (7) | O4A—C1Biii | 3.677 (8) |
Si1F—C1Di | 4.451 (2) | O4A—C1Di | 4.429 (8) |
Si1G—O1Fxii | 1.606 (7) | O4B—C1Avi | 3.639 (7) |
Si1G—O1L | 1.595 (7) | O4B—C1C | 4.268 (10) |
Si1G—O2Jxiii | 1.596 (7) | O4B—C1Dvi | 4.032 (8) |
Si1G—O3B | 1.592 (7) | O4C—Si3i | 1.603 (9) |
Si1G—C1Cxiv | 4.465 (7) | O4C—C1Ax | 4.344 (8) |
Si1G—C1D | 4.489 (2) | O4C—C1Bix | 3.991 (8) |
Si1H—O1Dxii | 1.608 (7) | O4C—C1Ci | 3.630 (8) |
Si1H—O1H | 1.586 (7) | O4D—Si2Bvii | 1.599 (8) |
Si1H—O2Kiv | 1.581 (8) | O4D—Si3i | 1.582 (8) |
Si1H—O3F | 1.588 (7) | O4D—C1Bix | 4.157 (7) |
Si1H—C1A | 4.435 (2) | O4D—C1Ci | 4.179 (10) |
Si1H—C1Civ | 4.515 (12) | O4D—C1Dx | 3.613 (8) |
Si1I—O1J | 1.598 (7) | C1A—O1Kxxii | 4.186 (6) |
Si1I—O1Lxv | 1.612 (7) | C1A—O2Bxxi | 3.867 (7) |
Si1I—O2Cvii | 1.581 (8) | C1A—O2Biv | 3.867 (7) |
Si1I—O3E | 1.587 (7) | C1A—O2Fxxii | 3.879 (8) |
Si1I—C1Biii | 4.472 (2) | C1A—O2Kxxi | 4.115 (8) |
Si1I—C1Civ | 4.658 (11) | C1A—O2Kiv | 4.115 (8) |
Si1J—O1I | 1.619 (7) | C1A—O2Lxxi | 3.878 (7) |
Si1J—O1Mi | 1.608 (7) | C1A—O2Liv | 3.878 (7) |
Si1J—O2H | 1.610 (8) | C1A—O4Axvi | 3.861 (8) |
Si1J—O3A | 1.593 (7) | C1A—O4Axxiii | 3.861 (8) |
Si1J—C1Ai | 4.643 (2) | C1A—O4Biv | 3.639 (7) |
Si1J—C1Biii | 4.540 (2) | C1A—O4Bxxi | 3.639 (7) |
Si1K—O1G | 1.593 (7) | C1B—O1Cxxiv | 4.103 (7) |
Si1K—O1J | 1.583 (7) | C1B—O1Cxiii | 4.103 (7) |
Si1K—O2I | 1.588 (8) | C1B—O2Axiii | 3.802 (7) |
Si1K—O3D | 1.608 (7) | C1B—O2Axxiv | 3.802 (7) |
Si1K—C1Biii | 4.5119 (19) | C1B—O2Cxxv | 4.119 (8) |
Si1K—C1Di | 4.257 (2) | C1B—O2Cxi | 4.119 (8) |
Si1L—O1Fxii | 1.578 (7) | C1B—O2Ixiii | 4.283 (8) |
Si1L—O1H | 1.594 (7) | C1B—O2Ixxiv | 4.283 (8) |
Si1L—O2F | 1.589 (8) | C1B—O2Lxxvi | 4.009 (7) |
Si1L—O3Civ | 1.606 (7) | C1B—O2Lxiv | 4.009 (7) |
Si1L—C1A | 4.4027 (19) | C1B—O4Axxiv | 3.677 (8) |
Si1L—C1D | 4.365 (2) | C1B—O4Axiii | 3.677 (8) |
Si2A—O2C | 1.596 (8) | C1B—O4Cxi | 3.991 (8) |
Si2A—O2Ki | 1.572 (8) | C1B—O4Dxi | 4.157 (7) |
Si2A—O2Li | 1.594 (8) | C1B—O4Dxxv | 4.157 (7) |
Si2A—O4C | 1.581 (8) | C1C—O1Aiv | 3.94 (2) |
Si2A—C1Ax | 4.348 (2) | C1C—O1Biv | 3.86 (2) |
Si2A—C1Bix | 4.291 (2) | C1C—O2Axxvii | 4.136 (18) |
Si2A—C1Ci | 4.3470 (17) | C1C—O2Aiv | 4.136 (18) |
Si2B—O2A | 1.580 (8) | C1C—O2Gxxviii | 3.704 (13) |
Si2B—O2D | 1.587 (8) | C1C—O2Jiv | 3.874 (13) |
Si2B—O2J | 1.588 (7) | C1C—O2Jxxvii | 3.874 (13) |
Si2B—O4Dvii | 1.599 (8) | C1C—O3Bxxix | 4.178 (7) |
Si2B—C1Biii | 4.3522 (16) | C1C—O3Eiv | 4.176 (17) |
Si2B—C1Civ | 4.292 (12) | C1C—O3Exxvii | 4.176 (17) |
Si2B—C1Diii | 4.284 (2) | C1C—O3Fxxvii | 4.215 (17) |
Si2C—O2B | 1.585 (8) | C1C—O3Fiv | 4.215 (17) |
Si2C—O2E | 1.591 (8) | C1C—O4Cxvi | 3.630 (8) |
Si2C—O2G | 1.570 (7) | C1C—O4Cxxx | 3.630 (8) |
Si2C—O4B | 1.598 (8) | C1D—O1Fxxxi | 4.068 (7) |
Si2C—C1Avi | 4.2431 (16) | C1D—O1Gxvi | 4.098 (7) |
Si2C—C1C | 4.320 (12) | C1D—O1Gxxiv | 4.098 (7) |
Si2C—C1Dvi | 4.336 (2) | C1D—O2Dxiii | 4.029 (8) |
Si2D—O2F | 1.590 (8) | C1D—O2Dxxii | 4.029 (8) |
Si2D—O2Hxvi | 1.579 (7) | C1D—O2Fxxxii | 3.983 (7) |
Si2D—O2Ixvi | 1.586 (8) | C1D—O2Ixvi | 3.746 (7) |
Si2D—O4Axvi | 1.602 (9) | C1D—O2Ixxiv | 3.746 (7) |
Si2D—C1A | 4.309 (2) | C1D—O3Dxvi | 4.174 (7) |
Si2D—C1Bxvii | 4.324 (2) | C1D—O3Dxxiv | 4.174 (7) |
Si2D—C1D | 4.3001 (16) | C1D—O4Bxxi | 4.032 (8) |
Si3—O4Axviii | 1.595 (8) | C1D—O4Bxiv | 4.032 (8) |
Si3—O4B | 1.571 (8) | C1D—O4Dxi | 3.613 (8) |
Si3—O4Cxvi | 1.603 (9) | C1D—O4Dxxxiii | 3.613 (8) |
Si3—O4Dxvi | 1.582 (8) | C2A—C2Dxxvii | 1.21 (7) |
Si3—C1Avi | 4.191 (2) | C2A—C2Eiv | 0.71 (6) |
Si3—C1Bxix | 4.173 (2) | C2A—C2Gxi | 1.54 (8) |
Si3—C1C | 4.2216 (19) | C2A—C2K | 1.93 (8) |
Si3—C1Dvi | 4.2684 (18) | C2A—C2L | 2.52 (10) |
O1A—Si1Bxx | 1.595 (2) | C2B—C2Cxxxiv | 1.97 (14) |
O1A—C1Civ | 3.94 (2) | C2B—C2Fxx | 1.24 (6) |
O1B—Si1Cxx | 1.600 (2) | C2B—C2J | 0.94 (6) |
O1B—C1Civ | 3.86 (2) | C2C—C2Bxxxv | 1.97 (14) |
O1C—Si1Evii | 1.567 (7) | C2D—C2Axxxi | 1.21 (7) |
O1C—C1Biii | 4.103 (7) | C2D—C2Exx | 1.60 (8) |
O1D—Si1Hxv | 1.608 (7) | C2D—C2Gxii | 0.87 (8) |
O1D—C1Cxi | 4.403 (12) | C2E—C2Aiv | 0.71 (6) |
O1E—Si1Eviii | 1.593 (6) | C2E—C2Dxx | 1.60 (8) |
O1F—Si1Gxv | 1.606 (7) | C2E—C2Fxvi | 1.65 (8) |
O1F—Si1Lxv | 1.578 (7) | C2E—C2Gxvii | 1.95 (9) |
O1F—C1Dxv | 4.068 (7) | C2E—C2Kiv | 1.73 (9) |
O1G—C1Di | 4.098 (7) | C2F—C2Bxx | 1.24 (6) |
O1H—C1A | 4.368 (7) | C2F—C2Ei | 1.65 (8) |
O1I—C1Biii | 4.505 (7) | C2F—C2Jxx | 1.97 (6) |
O1J—C1Biii | 4.368 (7) | C2F—C2Kvii | 1.87 (7) |
O1K—Si1Axvi | 1.595 (7) | C2F—C2Lvii | 2.44 (9) |
O1K—Si1Div | 1.576 (7) | C2G—C2Axi | 1.54 (8) |
O1K—C1A | 4.186 (6) | C2G—C2Dxv | 0.87 (8) |
O1L—Si1Ixii | 1.612 (7) | C2G—C2Exxxvi | 1.95 (9) |
O1L—C1Cxiv | 4.649 (12) | C2G—C2Ixv | 1.29 (16) |
O1M—Si1Jxvi | 1.608 (7) | C2G—C2Kxi | 2.00 (8) |
O1M—C1A | 4.615 (7) | C2G—C2Lxi | 2.10 (10) |
O2A—C1Biii | 3.802 (7) | C2H—C2Jxvi | 1.70 (7) |
O2A—C1Civ | 4.136 (18) | C2I—C2Gxii | 1.29 (16) |
O2B—Si1Biv | 1.597 (8) | C2I—C2Jxvi | 2.08 (16) |
O2B—C1Avi | 3.867 (7) | C2I—C2Kxxxi | 1.55 (14) |
O2B—C1C | 4.365 (18) | C2I—C2Lxxxi | 1.15 (15) |
O2C—Si1Ivii | 1.581 (8) | C2J—C2Fxx | 1.97 (6) |
O2C—C1Bix | 4.119 (8) | C2J—C2Hi | 1.70 (7) |
O2C—C1Ci | 4.490 (9) | C2J—C2Ii | 2.09 (16) |
O2D—Si1Evii | 1.599 (8) | C2J—C2Kxxxvii | 2.28 (7) |
O2D—C1Biii | 4.409 (7) | C2J—C2Lxxxvii | 2.24 (9) |
O2D—C1Diii | 4.029 (8) | C2K—C2Eiv | 1.73 (9) |
O2E—C1Avi | 4.423 (7) | C2K—C2Fvii | 1.87 (7) |
O2E—C1Dvi | 3.947 (8) | C2K—C2Gxi | 2.00 (8) |
O2F—C1A | 3.879 (8) | C2K—C2Ixxvii | 1.55 (14) |
O2F—C1D | 3.983 (7) | C2K—C2Jxxxviii | 2.28 (7) |
O2G—Si1Fxi | 1.620 (7) | C2K—C2L | 0.80 (9) |
O2G—C1C | 3.704 (13) | C2L—C2Fvii | 2.44 (9) |
O2G—C1Dvi | 4.279 (8) | C2L—C2Gxi | 2.10 (10) |
O2H—Si2Di | 1.579 (7) | C2L—C2Ixxvii | 1.15 (15) |
O2H—C1Ai | 4.425 (8) | C2L—C2Jxxxviii | 2.24 (9) |
O1C—Si1A—O1Ki | 110.1 (4) | O2Biv—C1A—O4Bxxi | 139.99 (17) |
O1C—Si1A—C1Ai | 172.6 (2) | O2Bxxi—C1A—O4Biv | 139.99 (17) |
O1C—Si1A—C1Biii | 71.0 (2) | O2Bxxi—C1A—O4Bxxi | 40.01 (17) |
O1Ki—Si1A—C1Ai | 73.7 (2) | O2Biv—C1A—O4Biv | 40.01 (17) |
O1Ki—Si1A—C1Biii | 177.4 (3) | O2Fxxii—C1A—O1Kxxii | 107.42 (14) |
O2Lii—Si1A—O1C | 110.0 (4) | O2F—C1A—O1K | 107.42 (14) |
O2Lii—Si1A—O1Ki | 109.8 (4) | O2F—C1A—O1Kxxii | 72.58 (14) |
O2Lii—Si1A—C1Ai | 62.6 (3) | O2Fxxii—C1A—O1K | 72.58 (14) |
O2Lii—Si1A—C1Biii | 67.6 (3) | O2Fxxii—C1A—O2F | 180.0 |
O3A—Si1A—O1C | 109.6 (4) | O2F—C1A—O2Kxxi | 108.89 (15) |
O3A—Si1A—O1Ki | 108.9 (4) | O2Fxxii—C1A—O2Kxxi | 71.11 (15) |
O3A—Si1A—O2Lii | 108.4 (4) | O2Fxxii—C1A—O2Kiv | 108.89 (15) |
O3A—Si1A—C1Ai | 74.3 (2) | O2F—C1A—O2Kiv | 71.11 (15) |
O3A—Si1A—C1Biii | 72.6 (2) | O2F—C1A—O3F | 61.30 (14) |
C1Biii—Si1A—C1Ai | 104.92 (4) | O2Fxxii—C1A—O3F | 118.70 (14) |
O1A—Si1B—O1M | 108.7 (4) | O2Kiv—C1A—O2Kxxi | 180.0 |
O1A—Si1B—O2Biv | 109.9 (3) | O2Kiv—C1A—O3F | 37.00 (14) |
O1A—Si1B—C1A | 164.1 (3) | O2Kxxi—C1A—O3F | 143.00 (14) |
O1A—Si1B—C1Civ | 62.9 (4) | O2Liv—C1A—O1Kxxii | 37.38 (14) |
O1M—Si1B—C1A | 86.4 (2) | O2Lxxi—C1A—O1Kxxii | 142.62 (14) |
O1M—Si1B—C1Civ | 171.5 (3) | O2Liv—C1A—O1K | 142.62 (14) |
O2Biv—Si1B—O1M | 107.1 (4) | O2Lxxi—C1A—O1K | 37.38 (14) |
O2Biv—Si1B—C1A | 59.3 (2) | O2Lxxi—C1A—O2F | 88.17 (16) |
O2Biv—Si1B—C1Civ | 78.0 (3) | O2Liv—C1A—O2Fxxii | 88.17 (16) |
O3F—Si1B—O1A | 109.6 (3) | O2Liv—C1A—O2F | 91.83 (16) |
O3F—Si1B—O1M | 110.9 (3) | O2Lxxi—C1A—O2Fxxii | 91.83 (16) |
O3F—Si1B—O2Biv | 110.6 (4) | O2Lxxi—C1A—O2Kxxi | 37.38 (15) |
O3F—Si1B—C1A | 67.6 (3) | O2Lxxi—C1A—O2Kiv | 142.62 (15) |
O3F—Si1B—C1Civ | 72.6 (2) | O2Liv—C1A—O2Kxxi | 142.62 (15) |
C1Civ—Si1B—C1A | 102.05 (10) | O2Liv—C1A—O2Kiv | 37.38 (15) |
O1B—Si1C—O2A | 110.1 (3) | O2Liv—C1A—O2Lxxi | 180.00 (10) |
O1B—Si1C—C1Biii | 166.3 (3) | O2Liv—C1A—O3F | 74.20 (15) |
O1B—Si1C—C1Civ | 63.5 (4) | O2Lxxi—C1A—O3F | 105.80 (15) |
O1I—Si1C—O1B | 108.1 (4) | O2Lxxi—C1A—O4Biv | 107.41 (16) |
O1I—Si1C—O2A | 109.3 (4) | O2Liv—C1A—O4Biv | 72.59 (16) |
O1I—Si1C—O3E | 110.8 (3) | O2Lxxi—C1A—O4Bxxi | 72.59 (16) |
O1I—Si1C—C1Biii | 83.3 (3) | O2Liv—C1A—O4Bxxi | 107.41 (16) |
O1I—Si1C—C1Civ | 171.5 (3) | O4Axvi—C1A—O1K | 82.16 (15) |
O2A—Si1C—C1Biii | 57.8 (2) | O4Axxiii—C1A—O1Kxxii | 82.16 (15) |
O2A—Si1C—C1Civ | 73.5 (3) | O4Axvi—C1A—O1Kxxii | 97.84 (15) |
O3E—Si1C—O1B | 109.7 (3) | O4Axxiii—C1A—O1K | 97.84 (15) |
O3E—Si1C—O2A | 108.8 (4) | O4Axxiii—C1A—O2Biv | 79.16 (16) |
O3E—Si1C—C1Biii | 71.7 (3) | O4Axxiii—C1A—O2Bxxi | 100.84 (16) |
O3E—Si1C—C1Civ | 75.0 (3) | O4Axvi—C1A—O2Bxxi | 79.16 (16) |
C1Civ—Si1C—C1Biii | 104.73 (11) | O4Axvi—C1A—O2Biv | 100.84 (16) |
O1E—Si1D—O3Cv | 110.1 (4) | O4Axxiii—C1A—O2Fxxii | 38.92 (17) |
O1E—Si1D—C1Avi | 176.3 (3) | O4Axvi—C1A—O2F | 38.92 (17) |
O1E—Si1D—C1Dvi | 83.9 (3) | O4Axxiii—C1A—O2F | 141.08 (17) |
O1Kiv—Si1D—O1E | 109.3 (4) | O4Axvi—C1A—O2Fxxii | 141.08 (17) |
O1Kiv—Si1D—O2E | 109.4 (4) | O4Axxiii—C1A—O2Kxxi | 109.21 (16) |
O1Kiv—Si1D—O3Cv | 109.5 (3) | O4Axvi—C1A—O2Kxxi | 70.79 (16) |
O1Kiv—Si1D—C1Avi | 68.3 (2) | O4Axvi—C1A—O2Kiv | 109.21 (16) |
O1Kiv—Si1D—C1Dvi | 164.7 (3) | O4Axxiii—C1A—O2Kiv | 70.79 (16) |
O2E—Si1D—O1E | 106.7 (4) | O4Axxiii—C1A—O2Liv | 51.91 (17) |
O2E—Si1D—O3Cv | 111.7 (4) | O4Axvi—C1A—O2Lxxi | 51.91 (17) |
O2E—Si1D—C1Avi | 76.9 (2) | O4Axxiii—C1A—O2Lxxi | 128.09 (17) |
O2E—Si1D—C1Dvi | 57.9 (3) | O4Axvi—C1A—O2Liv | 128.09 (17) |
O3Cv—Si1D—C1Avi | 68.7 (2) | O4Axvi—C1A—O3F | 88.29 (16) |
O3Cv—Si1D—C1Dvi | 71.3 (2) | O4Axxiii—C1A—O3F | 91.71 (16) |
C1Avi—Si1D—C1Dvi | 98.82 (4) | O4Axxiii—C1A—O4Axvi | 180.0 |
O1Cvii—Si1E—O1Eviii | 109.3 (4) | O4Axxiii—C1A—O4Bxxi | 140.53 (17) |
O1Cvii—Si1E—C1Bix | 66.4 (2) | O4Axvi—C1A—O4Bxxi | 39.47 (17) |
O1Cvii—Si1E—C1Dx | 165.4 (3) | O4Axvi—C1A—O4Biv | 140.53 (17) |
O1Eviii—Si1E—C1Bix | 175.1 (3) | O4Axxiii—C1A—O4Biv | 39.47 (17) |
O1Eviii—Si1E—C1Dx | 84.8 (3) | O4Bxxi—C1A—O1Kxxii | 70.11 (15) |
O2Dvii—Si1E—O1Cvii | 109.3 (4) | O4Bxxi—C1A—O1K | 109.89 (15) |
O2Dvii—Si1E—O1Eviii | 106.6 (4) | O4Biv—C1A—O1Kxxii | 109.89 (15) |
O2Dvii—Si1E—C1Bix | 77.5 (3) | O4Biv—C1A—O1K | 70.11 (15) |
O2Dvii—Si1E—C1Dx | 61.7 (3) | O4Bxxi—C1A—O2F | 55.19 (17) |
O3Dvi—Si1E—O1Cvii | 109.5 (3) | O4Biv—C1A—O2Fxxii | 55.19 (17) |
O3Dvi—Si1E—O1Eviii | 110.8 (4) | O4Bxxi—C1A—O2Fxxii | 124.81 (17) |
O3Dvi—Si1E—O2Dvii | 111.2 (4) | O4Biv—C1A—O2F | 124.81 (17) |
O3Dvi—Si1E—C1Bix | 69.5 (2) | O4Biv—C1A—O2Kiv | 64.86 (16) |
O3Dvi—Si1E—C1Dx | 66.8 (2) | O4Biv—C1A—O2Kxxi | 115.14 (16) |
C1Bix—Si1E—C1Dx | 99.63 (4) | O4Bxxi—C1A—O2Kxxi | 64.86 (16) |
O1D—Si1F—O2Gxi | 109.3 (4) | O4Bxxi—C1A—O2Kiv | 115.14 (16) |
O1D—Si1F—C1Cxi | 82.1 (3) | O4Bxxi—C1A—O3F | 116.49 (16) |
O1D—Si1F—C1Di | 174.6 (3) | O4Biv—C1A—O3F | 63.51 (16) |
O1G—Si1F—O1D | 107.7 (4) | O4Biv—C1A—O4Bxxi | 180.0 (2) |
O1G—Si1F—O2Gxi | 109.2 (4) | O1Cxxiv—C1B—O1Cxiii | 180.0 |
O1G—Si1F—O3Bi | 111.1 (4) | O1Cxiii—C1B—O4Cxi | 105.34 (15) |
O1G—Si1F—C1Cxi | 165.7 (3) | O1Cxxiv—C1B—O4Cxi | 74.66 (15) |
O1G—Si1F—C1Di | 66.9 (3) | O2Axiii—C1B—O1Cxiii | 59.58 (15) |
O2Gxi—Si1F—C1Cxi | 56.9 (3) | O2Axxiv—C1B—O1Cxiii | 120.42 (15) |
O2Gxi—Si1F—C1Di | 73.4 (3) | O2Axiii—C1B—O1Cxxiv | 120.42 (15) |
O3Bi—Si1F—O1D | 109.2 (4) | O2Axxiv—C1B—O1Cxxiv | 59.58 (15) |
O3Bi—Si1F—O2Gxi | 110.2 (4) | O2Axxiv—C1B—O2Axiii | 180.0 |
O3Bi—Si1F—C1Cxi | 73.9 (4) | O2Axiii—C1B—O2Cxxv | 115.66 (15) |
O3Bi—Si1F—C1Di | 73.5 (3) | O2Axiii—C1B—O2Cxi | 64.34 (15) |
C1Cxi—Si1F—C1Di | 103.17 (12) | O2Axxiv—C1B—O2Cxxv | 64.34 (15) |
O1Fxii—Si1G—C1Cxiv | 163.8 (2) | O2Axxiv—C1B—O2Cxi | 115.66 (15) |
O1Fxii—Si1G—C1D | 64.6 (2) | O2Axiii—C1B—O2Ixxiv | 86.46 (15) |
O1L—Si1G—O1Fxii | 108.6 (4) | O2Axxiv—C1B—O2Ixxiv | 93.54 (15) |
O1L—Si1G—C1Cxiv | 86.5 (3) | O2Axiii—C1B—O2Ixiii | 93.54 (15) |
O1L—Si1G—C1D | 173.0 (3) | O2Axxiv—C1B—O2Ixiii | 86.46 (15) |
O2Jxiii—Si1G—O1Fxii | 109.7 (4) | O2Axxiv—C1B—O2Lxxvi | 89.66 (16) |
O2Jxiii—Si1G—O1L | 107.9 (4) | O2Axxiv—C1B—O2Lxiv | 90.34 (16) |
O2Jxiii—Si1G—O3B | 111.5 (4) | O2Axiii—C1B—O2Lxiv | 89.66 (15) |
O2Jxiii—Si1G—C1Cxiv | 58.4 (3) | O2Axiii—C1B—O2Lxxvi | 90.34 (16) |
O2Jxiii—Si1G—C1D | 76.8 (3) | O2Axxiv—C1B—O4Cxi | 126.27 (16) |
O3B—Si1G—O1Fxii | 109.3 (4) | O2Axiii—C1B—O4Cxi | 53.73 (16) |
O3B—Si1G—O1L | 109.9 (4) | O2Axiii—C1B—O4Dxi | 38.03 (16) |
O3B—Si1G—C1Cxiv | 69.4 (4) | O2Axxiv—C1B—O4Dxxv | 38.03 (16) |
O3B—Si1G—C1D | 72.2 (3) | O2Axxiv—C1B—O4Dxi | 141.97 (16) |
C1Cxiv—Si1G—C1D | 100.42 (12) | O2Axiii—C1B—O4Dxxv | 141.97 (16) |
O1Dxii—Si1H—C1A | 176.0 (3) | O2Cxi—C1B—O1Cxxiv | 56.36 (13) |
O1Dxii—Si1H—C1Civ | 75.7 (2) | O2Cxxv—C1B—O1Cxxiv | 123.64 (13) |
O1H—Si1H—O1Dxii | 106.8 (4) | O2Cxxv—C1B—O1Cxiii | 56.36 (13) |
O1H—Si1H—C1A | 77.3 (3) | O2Cxi—C1B—O1Cxiii | 123.64 (13) |
O1H—Si1H—C1Civ | 177.3 (3) | O2Cxi—C1B—O2Cxxv | 180.0 |
O2Kiv—Si1H—O1Dxii | 109.8 (4) | O2Cxxv—C1B—O4Cxi | 143.07 (16) |
O2Kiv—Si1H—O1H | 108.0 (4) | O2Cxi—C1B—O4Cxi | 36.93 (16) |
O2Kiv—Si1H—O3F | 110.6 (4) | O2Ixxiv—C1B—O1Cxiii | 71.85 (14) |
O2Kiv—Si1H—C1A | 68.1 (3) | O2Ixiii—C1B—O1Cxxiv | 71.85 (14) |
O2Kiv—Si1H—C1Civ | 70.0 (3) | O2Ixxiv—C1B—O1Cxxiv | 108.15 (14) |
O3F—Si1H—O1Dxii | 110.9 (3) | O2Ixiii—C1B—O1Cxiii | 108.15 (14) |
O3F—Si1H—O1H | 110.7 (4) | O2Ixxiv—C1B—O2Cxxv | 69.43 (15) |
O3F—Si1H—C1A | 67.5 (3) | O2Ixiii—C1B—O2Cxxv | 110.57 (15) |
O3F—Si1H—C1Civ | 69.0 (3) | O2Ixiii—C1B—O2Cxi | 69.43 (15) |
C1A—Si1H—C1Civ | 100.29 (5) | O2Ixxiv—C1B—O2Cxi | 110.57 (15) |
O1J—Si1I—O1Lxv | 106.5 (4) | O2Ixxiv—C1B—O2Ixiii | 180.0 |
O1J—Si1I—C1Biii | 75.9 (3) | O2Ixiii—C1B—O4Cxi | 105.59 (16) |
O1J—Si1I—C1Civ | 172.2 (3) | O2Ixxiv—C1B—O4Cxi | 74.41 (16) |
O1Lxv—Si1I—C1Biii | 177.2 (3) | O2Lxxvi—C1B—O1Cxiii | 37.45 (14) |
O1Lxv—Si1I—C1Civ | 79.7 (2) | O2Lxiv—C1B—O1Cxxiv | 37.45 (14) |
O2Cvii—Si1I—O1J | 107.2 (4) | O2Lxiv—C1B—O1Cxiii | 142.55 (14) |
O2Cvii—Si1I—O1Lxv | 110.8 (4) | O2Lxxvi—C1B—O1Cxxiv | 142.55 (14) |
O2Cvii—Si1I—O3E | 111.4 (4) | O2Lxiv—C1B—O2Cxi | 37.23 (15) |
O2Cvii—Si1I—C1Biii | 66.9 (3) | O2Lxiv—C1B—O2Cxxv | 142.77 (15) |
O2Cvii—Si1I—C1Civ | 74.1 (3) | O2Lxxvi—C1B—O2Cxi | 142.77 (15) |
O3E—Si1I—O1J | 110.2 (4) | O2Lxxvi—C1B—O2Cxxv | 37.23 (15) |
O3E—Si1I—O1Lxv | 110.5 (3) | O2Lxiv—C1B—O2Ixxiv | 86.53 (15) |
O3E—Si1I—C1Biii | 69.4 (3) | O2Lxiv—C1B—O2Ixiii | 93.47 (15) |
O3E—Si1I—C1Civ | 62.7 (3) | O2Lxxvi—C1B—O2Ixxiv | 93.47 (15) |
C1Biii—Si1I—C1Civ | 97.95 (5) | O2Lxxvi—C1B—O2Ixiii | 86.53 (15) |
O1I—Si1J—C1Ai | 175.0 (3) | O2Lxiv—C1B—O2Lxxvi | 180.0 |
O1I—Si1J—C1Biii | 78.5 (2) | O2Lxxvi—C1B—O4Cxi | 142.01 (15) |
O1Mi—Si1J—O1I | 105.4 (4) | O2Lxiv—C1B—O4Cxi | 37.99 (15) |
O1Mi—Si1J—O2H | 109.4 (4) | O2Lxiv—C1B—O4Dxi | 72.93 (15) |
O1Mi—Si1J—O3A | 111.2 (4) | O2Lxxvi—C1B—O4Dxxv | 72.93 (15) |
O1Mi—Si1J—C1Ai | 79.0 (2) | O2Lxxvi—C1B—O4Dxi | 107.07 (15) |
O1Mi—Si1J—C1Biii | 175.9 (3) | O2Lxiv—C1B—O4Dxxv | 107.07 (15) |
O2H—Si1J—O1I | 107.9 (4) | O4Axxiv—C1B—O1Cxiii | 96.37 (16) |
O2H—Si1J—C1Ai | 72.2 (3) | O4Axiii—C1B—O1Cxiii | 83.63 (16) |
O2H—Si1J—C1Biii | 70.1 (3) | O4Axxiv—C1B—O1Cxxiv | 83.63 (16) |
O3A—Si1J—O1I | 111.7 (4) | O4Axiii—C1B—O1Cxxiv | 96.37 (16) |
O3A—Si1J—O2H | 111.0 (4) | O4Axiii—C1B—O2Axxiv | 74.89 (17) |
O3A—Si1J—C1Ai | 64.1 (2) | O4Axxiv—C1B—O2Axxiv | 105.11 (17) |
O3A—Si1J—C1Biii | 65.7 (2) | O4Axiii—C1B—O2Axiii | 105.11 (17) |
C1Biii—Si1J—C1Ai | 97.04 (4) | O4Axxiv—C1B—O2Axiii | 74.89 (17) |
O1G—Si1K—C1Biii | 176.0 (2) | O4Axxiv—C1B—O2Cxxv | 106.31 (17) |
O1G—Si1K—C1Di | 73.4 (2) | O4Axiii—C1B—O2Cxxv | 73.69 (17) |
O1J—Si1K—O1G | 108.9 (4) | O4Axxiv—C1B—O2Cxi | 73.69 (17) |
O1J—Si1K—C1Biii | 74.6 (3) | O4Axiii—C1B—O2Cxi | 106.31 (17) |
O1J—Si1K—C1Di | 170.6 (3) | O4Axxiv—C1B—O2Ixiii | 142.74 (17) |
O2I—Si1K—O1G | 108.3 (4) | O4Axiii—C1B—O2Ixiii | 37.26 (17) |
O2I—Si1K—O1J | 110.2 (4) | O4Axxiv—C1B—O2Ixxiv | 37.26 (17) |
O2I—Si1K—O3D | 109.9 (4) | O4Axiii—C1B—O2Ixxiv | 142.74 (17) |
O2I—Si1K—C1Biii | 71.5 (3) | O4Axxiv—C1B—O2Lxxvi | 127.93 (17) |
O2I—Si1K—C1Di | 60.7 (2) | O4Axiii—C1B—O2Lxxvi | 52.07 (17) |
O3D—Si1K—O1G | 108.5 (3) | O4Axxiv—C1B—O2Lxiv | 52.07 (17) |
O3D—Si1K—O1J | 111.0 (4) | O4Axiii—C1B—O2Lxiv | 127.93 (17) |
O3D—Si1K—C1Biii | 68.1 (2) | O4Axxiv—C1B—O4Axiii | 180.0 |
O3D—Si1K—C1Di | 76.1 (2) | O4Axiii—C1B—O4Cxi | 140.70 (18) |
C1Di—Si1K—C1Biii | 103.32 (4) | O4Axxiv—C1B—O4Cxi | 39.30 (18) |
O1Fxii—Si1L—O1H | 109.0 (4) | O4Axiii—C1B—O4Dxi | 142.02 (17) |
O1Fxii—Si1L—O2F | 111.2 (4) | O4Axiii—C1B—O4Dxxv | 37.98 (17) |
O1Fxii—Si1L—O3Civ | 109.2 (3) | O4Axxiv—C1B—O4Dxxv | 142.02 (17) |
O1Fxii—Si1L—C1A | 171.1 (3) | O4Axxiv—C1B—O4Dxi | 37.98 (17) |
O1Fxii—Si1L—C1D | 68.8 (3) | O4Dxi—C1B—O1Cxiii | 69.64 (14) |
O1H—Si1L—O2F | 110.1 (4) | O4Dxi—C1B—O1Cxxiv | 110.36 (14) |
O1H—Si1L—O3Civ | 109.3 (4) | O4Dxxv—C1B—O1Cxxiv | 69.64 (14) |
O1H—Si1L—C1A | 78.3 (3) | O4Dxxv—C1B—O1Cxiii | 110.36 (14) |
O1H—Si1L—C1D | 172.9 (3) | O4Dxi—C1B—O2Cxxv | 109.74 (15) |
O2F—Si1L—C1A | 60.6 (3) | O4Dxxv—C1B—O2Cxi | 109.74 (15) |
O2F—Si1L—C1D | 65.7 (2) | O4Dxi—C1B—O2Cxi | 70.26 (15) |
O3Civ—Si1L—O2F | 108.1 (4) | O4Dxxv—C1B—O2Cxxv | 70.26 (15) |
O3Civ—Si1L—C1A | 72.0 (2) | O4Dxxv—C1B—O2Ixxiv | 127.45 (15) |
O3Civ—Si1L—C1D | 77.7 (2) | O4Dxi—C1B—O2Ixiii | 127.45 (15) |
C1D—Si1L—C1A | 103.39 (4) | O4Dxxv—C1B—O2Ixiii | 52.55 (15) |
O2C—Si2A—O2Ki | 110.3 (4) | O4Dxi—C1B—O2Ixxiv | 52.55 (15) |
O2C—Si2A—O2Li | 109.0 (4) | O4Dxi—C1B—O4Cxi | 37.47 (16) |
O2C—Si2A—C1Ax | 170.7 (3) | O4Dxxv—C1B—O4Cxi | 142.53 (16) |
O2C—Si2A—C1Bix | 73.0 (3) | O4Dxi—C1B—O4Dxxv | 180.00 (15) |
O2C—Si2A—C1Ci | 84.7 (3) | O1Aiv—C1C—O1Biv | 180.0 |
O2Ki—Si2A—C1Ax | 71.0 (3) | O1Aiv—C1C—O2Aiv | 141.9 (2) |
O2Ki—Si2A—C1Bix | 176.6 (3) | O1Aiv—C1C—O2Axxvii | 141.9 (2) |
O2Ki—Si2A—C1Ci | 75.7 (3) | O1Aiv—C1C—O2Jxxvii | 123.3 (3) |
O2Li—Si2A—O2Ki | 108.6 (4) | O1Aiv—C1C—O2Jiv | 123.3 (3) |
O2Li—Si2A—C1Ax | 62.5 (3) | O1Aiv—C1C—O3Bxxix | 90.4 (3) |
O2Li—Si2A—C1Bix | 69.1 (3) | O1Aiv—C1C—O3Exxvii | 142.27 (19) |
O2Li—Si2A—C1Ci | 162.2 (3) | O1Aiv—C1C—O3Eiv | 142.27 (19) |
O4C—Si2A—O2C | 108.1 (4) | O1Aiv—C1C—O3Fxxvii | 36.99 (19) |
O4C—Si2A—O2Ki | 110.7 (4) | O1Aiv—C1C—O3Fiv | 36.99 (19) |
O4C—Si2A—O2Li | 110.2 (4) | O1Biv—C1C—O2Axxvii | 38.1 (2) |
O4C—Si2A—C1Ax | 79.4 (3) | O1Biv—C1C—O2Aiv | 38.1 (2) |
O4C—Si2A—C1Bix | 68.4 (3) | O1Biv—C1C—O2Jxxvii | 56.7 (3) |
O4C—Si2A—C1Ci | 53.3 (3) | O1Biv—C1C—O2Jiv | 56.7 (3) |
C1Ax—Si2A—C1Ci | 104.4 (2) | O1Biv—C1C—O3Bxxix | 89.6 (3) |
C1Bix—Si2A—C1Ax | 105.57 (4) | O1Biv—C1C—O3Exxvii | 37.73 (19) |
C1Bix—Si2A—C1Ci | 105.8 (2) | O1Biv—C1C—O3Eiv | 37.73 (19) |
O2A—Si2B—O2D | 111.4 (4) | O1Biv—C1C—O3Fiv | 143.01 (19) |
O2A—Si2B—C1Biii | 59.5 (3) | O1Biv—C1C—O3Fxxvii | 143.01 (19) |
O2A—Si2B—C1Civ | 73.7 (3) | O2Axxvii—C1C—O2Aiv | 76.3 (4) |
O2A—Si2B—C1Diii | 163.6 (3) | O2Axxvii—C1C—O2Jiv | 85.9 (4) |
O2D—Si2B—C1Biii | 81.6 (2) | O2Aiv—C1C—O2Jxxvii | 85.9 (4) |
O2D—Si2B—C1Civ | 172.7 (3) | O2Aiv—C1C—O2Jiv | 37.64 (19) |
O2D—Si2B—C1Diii | 70.1 (3) | O2Axxvii—C1C—O2Jxxvii | 37.64 (19) |
O2J—Si2B—O2A | 110.1 (4) | O2Axxvii—C1C—O3Bxxix | 75.1 (2) |
O2J—Si2B—O2D | 108.7 (4) | O2Aiv—C1C—O3Bxxix | 104.3 (3) |
O2J—Si2B—C1Biii | 168.2 (3) | O2Aiv—C1C—O3Exxvii | 63.9 (3) |
O2J—Si2B—C1Civ | 64.2 (3) | O2Aiv—C1C—O3Eiv | 36.5 (2) |
O2J—Si2B—C1Diii | 83.9 (3) | O2Axxvii—C1C—O3Eiv | 63.9 (3) |
O4Dvii—Si2B—O2A | 110.7 (4) | O2Axxvii—C1C—O3Exxvii | 36.5 (2) |
O4Dvii—Si2B—O2D | 107.0 (4) | O2Axxvii—C1C—O3Fxxvii | 115.77 (14) |
O4Dvii—Si2B—O2J | 109.0 (4) | O2Aiv—C1C—O3Fxxvii | 145.26 (14) |
O4Dvii—Si2B—C1Biii | 72.4 (3) | O2Aiv—C1C—O3Fiv | 115.77 (14) |
O4Dvii—Si2B—C1Civ | 75.1 (4) | O2Axxvii—C1C—O3Fiv | 145.26 (14) |
O4Dvii—Si2B—C1Diii | 55.0 (3) | O2Gxxviii—C1C—O1Aiv | 59.3 (3) |
C1Civ—Si2B—C1Biii | 105.67 (4) | O2G—C1C—O1Aiv | 59.3 (3) |
C1Diii—Si2B—C1Biii | 105.61 (4) | O2Gxxviii—C1C—O1Biv | 120.7 (3) |
C1Diii—Si2B—C1Civ | 106.7 (2) | O2G—C1C—O1Biv | 120.7 (3) |
O2B—Si2C—O2E | 109.3 (4) | O2G—C1C—O2Axxvii | 142.6 (3) |
O2B—Si2C—O2G | 111.0 (4) | O2G—C1C—O2Aiv | 90.47 (18) |
O2B—Si2C—O4B | 108.1 (4) | O2Gxxviii—C1C—O2Axxvii | 90.47 (18) |
O2B—Si2C—C1Avi | 65.6 (3) | O2Gxxviii—C1C—O2Aiv | 142.6 (3) |
O2B—Si2C—C1C | 81.1 (3) | O2G—C1C—O2Gxxviii | 118.6 (6) |
O2B—Si2C—C1Dvi | 171.4 (3) | O2G—C1C—O2Jxxvii | 176.0 (4) |
O2E—Si2C—O2G | 110.2 (4) | O2Gxxviii—C1C—O2Jiv | 176.0 (4) |
O2E—Si2C—O4B | 106.3 (4) | O2Gxxviii—C1C—O2Jxxvii | 64.09 (17) |
O2E—Si2C—C1Avi | 85.9 (2) | O2G—C1C—O2Jiv | 64.09 (17) |
O2E—Si2C—C1C | 166.4 (3) | O2G—C1C—O3Bxxix | 142.3 (4) |
O2E—Si2C—C1Dvi | 65.3 (3) | O2Gxxviii—C1C—O3Bxxix | 38.39 (14) |
O2G—Si2C—C1Avi | 163.3 (3) | O2G—C1C—O3Exxvii | 106.33 (19) |
O2G—Si2C—C1C | 56.9 (3) | O2G—C1C—O3Eiv | 121.7 (2) |
O2G—Si2C—C1Dvi | 77.5 (3) | O2Gxxviii—C1C—O3Exxvii | 121.7 (2) |
O4B—Si2C—O2G | 111.6 (4) | O2Gxxviii—C1C—O3Eiv | 106.33 (19) |
O4B—Si2C—C1Avi | 57.4 (3) | O2Gxxviii—C1C—O3Fiv | 59.7 (3) |
O4B—Si2C—C1C | 77.4 (3) | O2G—C1C—O3Fiv | 71.9 (3) |
O4B—Si2C—C1Dvi | 68.4 (3) | O2G—C1C—O3Fxxvii | 59.7 (3) |
C1Avi—Si2C—C1C | 106.72 (4) | O2Gxxviii—C1C—O3Fxxvii | 71.9 (3) |
C1Avi—Si2C—C1Dvi | 106.62 (4) | O2Jxxvii—C1C—O2Jiv | 113.4 (5) |
C1C—Si2C—C1Dvi | 105.3 (2) | O2Jiv—C1C—O3Bxxix | 141.3 (5) |
O2F—Si2D—O2Hxvi | 112.0 (4) | O2Jxxvii—C1C—O3Bxxix | 37.95 (14) |
O2F—Si2D—O2Ixvi | 109.1 (4) | O2Jxxvii—C1C—O3Exxvii | 73.5 (3) |
O2F—Si2D—O4Axvi | 107.8 (4) | O2Jiv—C1C—O3Eiv | 73.5 (3) |
O2F—Si2D—C1A | 63.8 (3) | O2Jxxvii—C1C—O3Eiv | 54.3 (2) |
O2F—Si2D—C1Bxvii | 163.7 (3) | O2Jiv—C1C—O3Exxvii | 54.3 (2) |
O2F—Si2D—C1D | 67.9 (2) | O2Jxxvii—C1C—O3Fiv | 108.27 (17) |
O2Hxvi—Si2D—O4Axvi | 107.0 (4) | O2Jxxvii—C1C—O3Fxxvii | 124.3 (2) |
O2Hxvi—Si2D—C1A | 83.8 (3) | O2Jiv—C1C—O3Fxxvii | 108.27 (17) |
O2Hxvi—Si2D—C1Bxvii | 77.4 (3) | O2Jiv—C1C—O3Fiv | 124.3 (2) |
O2Hxvi—Si2D—C1D | 167.9 (3) | O3Exxvii—C1C—O3Bxxix | 111.3 (3) |
O2Ixvi—Si2D—O2Hxvi | 111.1 (4) | O3Eiv—C1C—O3Bxxix | 68.0 (2) |
O2Ixvi—Si2D—O4Axvi | 109.7 (4) | O3Exxvii—C1C—O3Eiv | 75.5 (4) |
O2Ixvi—Si2D—C1A | 165.1 (3) | O3Fiv—C1C—O3Bxxix | 70.4 (2) |
O2Ixvi—Si2D—C1Bxvii | 77.9 (3) | O3Fxxvii—C1C—O3Bxxix | 110.3 (3) |
O2Ixvi—Si2D—C1D | 59.3 (3) | O3Fxxvii—C1C—O3Exxvii | 105.30 (14) |
O4Axvi—Si2D—C1A | 63.2 (3) | O3Fiv—C1C—O3Exxvii | 178.2 (2) |
O4Axvi—Si2D—C1Bxvii | 56.0 (3) | O3Fiv—C1C—O3Eiv | 105.30 (14) |
O4Axvi—Si2D—C1D | 84.0 (3) | O3Fxxvii—C1C—O3Eiv | 178.2 (2) |
C1Bxvii—Si2D—C1A | 105.68 (4) | O3Fxxvii—C1C—O3Fiv | 74.0 (4) |
C1D—Si2D—C1A | 106.10 (4) | O4Cxvi—C1C—O1Aiv | 93.7 (3) |
C1D—Si2D—C1Bxvii | 105.83 (4) | O4Cxxx—C1C—O1Aiv | 93.7 (3) |
O4Axviii—Si3—O4B | 106.8 (4) | O4Cxvi—C1C—O1Biv | 86.3 (3) |
O4Axviii—Si3—O4Dxvi | 109.2 (4) | O4Cxxx—C1C—O1Biv | 86.3 (3) |
O4Axviii—Si3—C1Avi | 67.1 (3) | O4Cxxx—C1C—O2Axxvii | 53.5 (2) |
O4Axviii—Si3—C1Bxix | 61.1 (3) | O4Cxvi—C1C—O2Aiv | 53.5 (2) |
O4Axviii—Si3—C1C | 166.3 (3) | O4Cxxx—C1C—O2Aiv | 119.6 (5) |
O4Axviii—Si3—C1Dvi | 85.2 (3) | O4Cxvi—C1C—O2Axxvii | 119.6 (5) |
O4B—Si3—C1Avi | 58.9 (3) | O4Cxvi—C1C—O2G | 75.0 (2) |
O4B—Si3—C1Bxix | 167.5 (3) | O4Cxvi—C1C—O2Gxxviii | 108.9 (3) |
O4B—Si3—C1C | 81.0 (4) | O4Cxxx—C1C—O2G | 108.9 (3) |
O4B—Si3—C1Dvi | 70.7 (3) | O4Cxxx—C1C—O2Gxxviii | 75.0 (2) |
O4Cxvi—Si3—O4Axviii | 108.5 (4) | O4Cxvi—C1C—O2Jxxvii | 101.4 (3) |
O4Cxvi—Si3—O4B | 111.4 (4) | O4Cxxx—C1C—O2Jxxvii | 74.4 (2) |
O4Cxvi—Si3—O4Dxvi | 110.8 (4) | O4Cxvi—C1C—O2Jiv | 74.4 (2) |
O4Cxvi—Si3—C1Avi | 84.6 (3) | O4Cxxx—C1C—O2Jiv | 101.4 (3) |
O4Cxvi—Si3—C1Bxix | 72.4 (3) | O4Cxvi—C1C—O3Bxxix | 86.11 (17) |
O4Cxvi—Si3—C1C | 57.8 (3) | O4Cxxx—C1C—O3Bxxix | 93.84 (17) |
O4Cxvi—Si3—C1Dvi | 164.1 (3) | O4Cxxx—C1C—O3Eiv | 117.4 (5) |
O4Dxvi—Si3—O4B | 110.0 (4) | O4Cxxx—C1C—O3Exxvii | 55.9 (2) |
O4Dxvi—Si3—C1Avi | 164.2 (3) | O4Cxvi—C1C—O3Exxvii | 117.4 (5) |
O4Dxvi—Si3—C1Bxix | 78.5 (3) | O4Cxvi—C1C—O3Eiv | 55.9 (2) |
O4Dxvi—Si3—C1C | 77.6 (4) | O4Cxvi—C1C—O3Fxxvii | 124.6 (4) |
O4Dxvi—Si3—C1Dvi | 55.4 (3) | O4Cxvi—C1C—O3Fiv | 62.3 (2) |
C1Avi—Si3—C1C | 109.5 (2) | O4Cxxx—C1C—O3Fxxvii | 62.3 (2) |
C1Avi—Si3—C1Dvi | 108.83 (4) | O4Cxxx—C1C—O3Fiv | 124.6 (5) |
C1Bxix—Si3—C1Avi | 110.68 (4) | O4Cxxx—C1C—O4Cxvi | 172.7 (7) |
C1Bxix—Si3—C1C | 110.3 (2) | O1Gxxiv—C1D—O1Fxxxi | 64.13 (14) |
C1Bxix—Si3—C1Dvi | 109.18 (4) | O1Gxvi—C1D—O1Fxxxi | 115.87 (14) |
C1C—Si3—C1Dvi | 108.27 (3) | O1Gxxiv—C1D—O1Gxvi | 180.00 (19) |
Si1Bxx—O1A—Si1B | 167.9 (7) | O1Gxxiv—C1D—O3Dxxiv | 36.60 (14) |
Si1B—O1A—C1Civ | 96.0 (4) | O1Gxvi—C1D—O3Dxvi | 36.60 (14) |
Si1Bxx—O1A—C1Civ | 96.0 (4) | O1Gxxiv—C1D—O3Dxvi | 143.40 (14) |
Si1Cxx—O1B—Si1C | 170.7 (7) | O1Gxvi—C1D—O3Dxxiv | 143.40 (14) |
Si1C—O1B—C1Civ | 94.7 (4) | O2Dxiii—C1D—O1Fxxxi | 125.57 (13) |
Si1Cxx—O1B—C1Civ | 94.7 (4) | O2Dxxii—C1D—O1Fxxxi | 54.43 (13) |
Si1A—O1C—Si1Evii | 178.7 (6) | O2Dxiii—C1D—O1Gxxiv | 73.54 (14) |
Si1A—O1C—C1Biii | 87.4 (2) | O2Dxxii—C1D—O1Gxxiv | 106.46 (15) |
Si1Evii—O1C—C1Biii | 93.1 (3) | O2Dxxii—C1D—O1Gxvi | 73.54 (15) |
Si1F—O1D—Si1Hxv | 160.5 (5) | O2Dxiii—C1D—O1Gxvi | 106.46 (15) |
Si1F—O1D—C1Cxi | 76.9 (3) | O2Dxxii—C1D—O2Dxiii | 180.0 |
Si1Hxv—O1D—C1Cxi | 83.6 (3) | O2Dxiii—C1D—O3Dxxiv | 37.18 (14) |
Si1Eviii—O1E—Si1D | 151.3 (5) | O2Dxxii—C1D—O3Dxxiv | 142.82 (15) |
Si1Gxv—O1F—C1Dxv | 94.5 (3) | O2Dxxii—C1D—O3Dxvi | 37.18 (14) |
Si1Lxv—O1F—Si1Gxv | 174.3 (5) | O2Dxiii—C1D—O3Dxvi | 142.82 (15) |
Si1Lxv—O1F—C1Dxv | 90.1 (3) | O2Fxxxii—C1D—O1Fxxxi | 37.86 (15) |
Si1F—O1G—Si1K | 166.3 (5) | O2F—C1D—O1Fxxxi | 142.14 (15) |
Si1F—O1G—C1Di | 92.1 (3) | O2Fxxxii—C1D—O1Gxxiv | 67.68 (14) |
Si1K—O1G—C1Di | 84.7 (3) | O2Fxxxii—C1D—O1Gxvi | 112.32 (14) |
Si1H—O1H—C1A | 82.0 (3) | O2F—C1D—O1Gxxiv | 112.32 (14) |
Si1L—O1H—Si1H | 162.3 (5) | O2F—C1D—O1Gxvi | 67.68 (14) |
Si1L—O1H—C1A | 80.7 (3) | O2Fxxxii—C1D—O2Dxxii | 84.41 (14) |
Si1C—O1I—Si1J | 157.1 (5) | O2F—C1D—O2Dxiii | 84.41 (14) |
Si1C—O1I—C1Biii | 76.2 (2) | O2Fxxxii—C1D—O2Dxiii | 95.59 (14) |
Si1J—O1I—C1Biii | 80.9 (2) | O2F—C1D—O2Dxxii | 95.59 (14) |
Si1I—O1J—C1Biii | 83.3 (3) | O2F—C1D—O2Fxxxii | 180.0 (2) |
Si1K—O1J—Si1I | 163.5 (5) | O2Fxxxii—C1D—O2Ixvi | 141.03 (17) |
Si1K—O1J—C1Biii | 84.9 (3) | O2Fxxxii—C1D—O2Ixxiv | 38.97 (17) |
Si1Axvi—O1K—C1A | 84.8 (2) | O2F—C1D—O2Ixvi | 38.97 (17) |
Si1Div—O1K—Si1Axvi | 170.0 (5) | O2F—C1D—O2Ixxiv | 141.03 (17) |
Si1Div—O1K—C1A | 91.2 (3) | O2Fxxxii—C1D—O3Dxvi | 103.18 (14) |
Si1G—O1L—Si1Ixii | 153.6 (5) | O2Fxxxii—C1D—O3Dxxiv | 76.82 (14) |
Si1G—O1L—C1Cxiv | 73.5 (2) | O2F—C1D—O3Dxxiv | 103.18 (14) |
Si1Ixii—O1L—C1Cxiv | 80.4 (3) | O2F—C1D—O3Dxvi | 76.82 (14) |
Si1B—O1M—C1A | 73.4 (2) | O2Ixxiv—C1D—O1Fxxxi | 60.48 (15) |
Si1Jxvi—O1M—Si1B | 154.3 (5) | O2Ixvi—C1D—O1Fxxxi | 119.52 (15) |
Si1Jxvi—O1M—C1A | 81.0 (2) | O2Ixvi—C1D—O1Gxxiv | 141.97 (15) |
Si1C—O2A—C1Biii | 101.3 (3) | O2Ixxiv—C1D—O1Gxxiv | 38.03 (15) |
Si1C—O2A—C1Civ | 84.6 (3) | O2Ixxiv—C1D—O1Gxvi | 141.97 (15) |
Si2B—O2A—Si1C | 159.2 (5) | O2Ixvi—C1D—O1Gxvi | 38.03 (15) |
Si2B—O2A—C1Biii | 99.5 (3) | O2Ixvi—C1D—O2Dxxii | 65.10 (15) |
Si2B—O2A—C1Civ | 84.8 (3) | O2Ixvi—C1D—O2Dxiii | 114.90 (15) |
C1Biii—O2A—C1Civ | 120.4 (2) | O2Ixxiv—C1D—O2Dxxii | 114.90 (15) |
Si1Biv—O2B—C1Avi | 99.9 (3) | O2Ixxiv—C1D—O2Dxiii | 65.10 (15) |
Si1Biv—O2B—C1C | 81.0 (3) | O2Ixxiv—C1D—O2Ixvi | 180.00 (15) |
Si2C—O2B—Si1Biv | 158.4 (5) | O2Ixvi—C1D—O3Dxxiv | 141.92 (14) |
Si2C—O2B—C1Avi | 92.5 (3) | O2Ixxiv—C1D—O3Dxvi | 141.92 (14) |
Si2C—O2B—C1C | 77.9 (3) | O2Ixxiv—C1D—O3Dxxiv | 38.08 (14) |
C1Avi—O2B—C1C | 113.02 (19) | O2Ixvi—C1D—O3Dxvi | 38.08 (14) |
Si1Ivii—O2C—Si2A | 158.9 (5) | O3Dxvi—C1D—O1Fxxxi | 86.70 (13) |
Si1Ivii—O2C—C1Bix | 92.4 (3) | O3Dxxiv—C1D—O1Fxxxi | 93.30 (13) |
Si1Ivii—O2C—C1Ci | 86.1 (3) | O3Dxxiv—C1D—O3Dxvi | 180.0 |
Si2A—O2C—C1Bix | 85.2 (3) | O4Bxxi—C1D—O1Fxxxi | 95.58 (15) |
Si2A—O2C—C1Ci | 74.6 (3) | O4Bxiv—C1D—O1Fxxxi | 84.42 (15) |
C1Bix—O2C—C1Ci | 106.22 (19) | O4Bxiv—C1D—O1Gxvi | 71.81 (14) |
Si1Evii—O2D—Si2B | 159.3 (5) | O4Bxxi—C1D—O1Gxvi | 108.19 (14) |
Si1Evii—O2D—C1Biii | 81.8 (2) | O4Bxxi—C1D—O1Gxxiv | 71.81 (14) |
Si1Evii—O2D—C1Diii | 97.9 (3) | O4Bxiv—C1D—O1Gxxiv | 108.19 (14) |
Si2B—O2D—C1Biii | 77.5 (2) | O4Bxiv—C1D—O2Dxxii | 102.32 (16) |
Si2B—O2D—C1Diii | 88.2 (3) | O4Bxxi—C1D—O2Dxiii | 102.32 (16) |
C1Diii—O2D—C1Biii | 109.14 (16) | O4Bxxi—C1D—O2Dxxii | 77.68 (16) |
Si1D—O2E—Si2C | 154.6 (5) | O4Bxiv—C1D—O2Dxiii | 77.68 (16) |
Si1D—O2E—C1Avi | 82.5 (2) | O4Bxxi—C1D—O2Fxxxii | 128.40 (16) |
Si1D—O2E—C1Dvi | 102.0 (3) | O4Bxiv—C1D—O2Fxxxii | 51.60 (16) |
Si2C—O2E—C1Avi | 73.1 (2) | O4Bxiv—C1D—O2F | 128.40 (16) |
Si2C—O2E—C1Dvi | 93.2 (3) | O4Bxxi—C1D—O2F | 51.60 (16) |
C1Dvi—O2E—C1Avi | 110.43 (16) | O4Bxxi—C1D—O2Ixxiv | 109.84 (16) |
Si1L—O2F—C1A | 98.5 (3) | O4Bxiv—C1D—O2Ixvi | 109.84 (16) |
Si1L—O2F—C1D | 93.0 (3) | O4Bxiv—C1D—O2Ixxiv | 70.16 (16) |
Si2D—O2F—Si1L | 162.0 (6) | O4Bxxi—C1D—O2Ixvi | 70.16 (16) |
Si2D—O2F—C1A | 94.6 (3) | O4Bxxi—C1D—O3Dxvi | 90.80 (15) |
Si2D—O2F—C1D | 90.5 (3) | O4Bxiv—C1D—O3Dxxiv | 90.80 (14) |
C1D—O2F—C1A | 122.12 (19) | O4Bxiv—C1D—O3Dxvi | 89.20 (14) |
Si1Fxi—O2G—C1C | 101.5 (3) | O4Bxxi—C1D—O3Dxxiv | 89.20 (14) |
Si1Fxi—O2G—C1Dvi | 85.3 (3) | O4Bxiv—C1D—O4Bxxi | 180.00 (12) |
Si2C—O2G—Si1Fxi | 156.1 (5) | O4Dxi—C1D—O1Fxxxi | 108.42 (15) |
Si2C—O2G—C1C | 102.3 (3) | O4Dxxxiii—C1D—O1Fxxxi | 71.58 (15) |
Si2C—O2G—C1Dvi | 81.5 (3) | O4Dxxxiii—C1D—O1Gxvi | 91.21 (16) |
C1C—O2G—C1Dvi | 118.9 (3) | O4Dxxxiii—C1D—O1Gxxiv | 88.79 (16) |
Si1J—O2H—C1Ai | 87.5 (3) | O4Dxi—C1D—O1Gxvi | 88.79 (16) |
Si1J—O2H—C1Biii | 89.2 (3) | O4Dxi—C1D—O1Gxxiv | 91.21 (16) |
Si2Di—O2H—Si1J | 157.6 (6) | O4Dxxxiii—C1D—O2Dxxii | 38.68 (16) |
Si2Di—O2H—C1Ai | 75.5 (3) | O4Dxxxiii—C1D—O2Dxiii | 141.32 (16) |
Si2Di—O2H—C1Biii | 81.4 (3) | O4Dxi—C1D—O2Dxiii | 38.68 (16) |
C1Biii—O2H—C1Ai | 104.61 (17) | O4Dxi—C1D—O2Dxxii | 141.32 (16) |
Si1K—O2I—Si2Di | 162.6 (5) | O4Dxxxiii—C1D—O2Fxxxii | 109.34 (16) |
Si1K—O2I—C1Biii | 87.9 (3) | O4Dxi—C1D—O2F | 109.34 (16) |
Si1K—O2I—C1Di | 97.6 (3) | O4Dxi—C1D—O2Fxxxii | 70.66 (16) |
Si2Di—O2I—C1Biii | 80.8 (3) | O4Dxxxiii—C1D—O2F | 70.66 (16) |
Si2Di—O2I—C1Di | 99.4 (3) | O4Dxxxiii—C1D—O2Ixvi | 61.02 (17) |
C1Di—O2I—C1Biii | 117.78 (19) | O4Dxi—C1D—O2Ixxiv | 61.02 (17) |
Si1Giii—O2J—C1Civ | 101.1 (3) | O4Dxxxiii—C1D—O2Ixxiv | 118.98 (17) |
Si1Giii—O2J—C1Diii | 82.5 (3) | O4Dxi—C1D—O2Ixvi | 118.98 (17) |
Si2B—O2J—Si1Giii | 156.5 (6) | O4Dxxxiii—C1D—O3Dxvi | 59.88 (16) |
Si2B—O2J—C1Civ | 94.2 (3) | O4Dxi—C1D—O3Dxxiv | 59.88 (16) |
Si2B—O2J—C1Diii | 75.1 (3) | O4Dxi—C1D—O3Dxvi | 120.12 (16) |
C1Civ—O2J—C1Diii | 112.2 (3) | O4Dxxxiii—C1D—O3Dxxiv | 120.12 (16) |
Si1Hiv—O2K—Si2Axvi | 171.8 (5) | O4Dxi—C1D—O4Bxxi | 140.99 (17) |
Si1Hiv—O2K—C1Avi | 91.1 (3) | O4Dxxxiii—C1D—O4Bxxi | 39.01 (17) |
Si1Hiv—O2K—C1C | 89.5 (3) | O4Dxxxiii—C1D—O4Bxiv | 140.99 (17) |
Si2Axvi—O2K—C1Avi | 87.8 (3) | O4Dxi—C1D—O4Bxiv | 39.01 (17) |
Si2Axvi—O2K—C1C | 83.2 (3) | O4Dxi—C1D—O4Dxxxiii | 180.0 |
C1Avi—O2K—C1C | 110.6 (2) | C2Dxxvii—C2A—C2Gxi | 34 (4) |
Si1Axviii—O2L—Si2Axvi | 165.6 (6) | C2Dxxvii—C2A—C2K | 94 (4) |
Si1Axviii—O2L—C1Avi | 96.1 (3) | C2Dxxvii—C2A—C2L | 84 (4) |
Si1Axviii—O2L—C1Bxix | 91.0 (3) | C2Eiv—C2A—C2Dxxvii | 110 (8) |
Si2Axvi—O2L—C1Avi | 96.1 (3) | C2Eiv—C2A—C2Gxi | 116 (8) |
Si2Axvi—O2L—C1Bxix | 89.1 (3) | C2Eiv—C2A—C2K | 63 (7) |
C1Avi—O2L—C1Bxix | 121.5 (2) | C2Eiv—C2A—C2L | 76 (7) |
Si1A—O3A—Si1J | 179.6 (6) | C2Gxi—C2A—C2K | 69 (4) |
Si1A—O3A—C1Ai | 84.2 (3) | C2Gxi—C2A—C2L | 56 (3) |
Si1A—O3A—C1Biii | 85.8 (3) | C2K—C2A—C2L | 14 (2) |
Si1J—O3A—C1Ai | 95.9 (3) | C2Fxx—C2B—C2Cxxxiv | 63 (4) |
Si1J—O3A—C1Biii | 93.8 (3) | C2Fxx—C2B—C2J | 128 (7) |
C1Biii—O3A—C1Ai | 111.01 (15) | C2J—C2B—C2Cxxxiv | 72 (6) |
Si1Fxvi—O3B—C1Cxiv | 84.7 (4) | C2Axxxi—C2D—C2Exx | 24 (3) |
Si1Fxvi—O3B—C1D | 85.7 (3) | C2Axxxi—C2D—C2Gxii | 94 (7) |
Si1G—O3B—Si1Fxvi | 168.9 (5) | C2Exx—C2D—C2Gxii | 100 (7) |
Si1G—O3B—C1Cxiv | 89.7 (4) | C2Aiv—C2E—C2Dxx | 45 (6) |
Si1G—O3B—C1D | 87.0 (3) | C2Aiv—C2E—C2Fxvi | 140 (8) |
C1Cxiv—O3B—C1D | 108.85 (14) | C2Aiv—C2E—C2Gxvii | 45 (6) |
Si1Dv—O3C—C1Avi | 90.7 (3) | C2Aiv—C2E—C2Kiv | 96 (8) |
Si1Dv—O3C—C1Dix | 88.3 (3) | C2Dxx—C2E—C2Fxvi | 97 (4) |
Si1Liv—O3C—Si1Dv | 167.5 (5) | C2Dxx—C2E—C2Gxvii | 26 (3) |
Si1Liv—O3C—C1Avi | 86.6 (2) | C2Dxx—C2E—C2Kiv | 90 (4) |
Si1Liv—O3C—C1Dix | 81.0 (3) | C2Fxvi—C2E—C2Gxvii | 96 (3) |
C1Avi—O3C—C1Dix | 107.81 (15) | C2Kiv—C2E—C2Fxvi | 67 (3) |
Si1Exxi—O3D—Si1K | 174.8 (5) | C2Kiv—C2E—C2Gxvii | 66 (3) |
Si1Exxi—O3D—C1Biii | 89.9 (3) | C2Bxx—C2F—C2Ei | 95 (4) |
Si1Exxi—O3D—C1Di | 92.9 (3) | C2Bxx—C2F—C2Jxx | 22 (3) |
Si1K—O3D—C1Biii | 91.0 (3) | C2Bxx—C2F—C2Kvii | 90 (4) |
Si1K—O3D—C1Di | 81.9 (2) | C2Bxx—C2F—C2Lvii | 79 (4) |
C1Di—O3D—C1Biii | 110.74 (16) | C2Ei—C2F—C2Jxx | 97 (3) |
Si1C—O3E—C1Biii | 87.1 (3) | C2Ei—C2F—C2Lvii | 70 (3) |
Si1C—O3E—C1Civ | 83.3 (3) | C2Jxx—C2F—C2Lvii | 60 (3) |
Si1I—O3E—Si1C | 176.9 (5) | C2Kvii—C2F—C2Ei | 58 (3) |
Si1I—O3E—C1Biii | 89.8 (3) | C2Kvii—C2F—C2Jxx | 73 (3) |
Si1I—O3E—C1Civ | 97.6 (3) | C2Kvii—C2F—C2Lvii | 15 (2) |
C1Biii—O3E—C1Civ | 110.93 (17) | C2Axi—C2G—C2Dxv | 52 (5) |
Si1B—O3F—C1A | 91.4 (3) | C2Axi—C2G—C2Exxxvi | 19 (3) |
Si1B—O3F—C1Civ | 86.3 (3) | C2Axi—C2G—C2Kxi | 65 (3) |
Si1H—O3F—Si1B | 176.3 (5) | C2Axi—C2G—C2Lxi | 86 (4) |
Si1H—O3F—C1A | 91.5 (3) | C2Dxv—C2G—C2Exxxvi | 54 (5) |
Si1H—O3F—C1Civ | 90.4 (3) | C2Dxv—C2G—C2Kxi | 103 (7) |
C1A—O3F—C1Civ | 111.46 (18) | C2Dxv—C2G—C2Lxi | 123 (7) |
Si2Di—O4A—Si3ii | 148.0 (6) | C2Exxxvi—C2G—C2Kxi | 52 (3) |
Si2Di—O4A—C1Ai | 95.1 (3) | C2Exxxvi—C2G—C2Lxi | 74 (4) |
Si2Di—O4A—C1Biii | 102.8 (3) | C2Ixv—C2G—C2Axi | 112 (7) |
Si2Di—O4A—C1Di | 74.9 (3) | C2Ixv—C2G—C2Dxv | 151 (10) |
Si3ii—O4A—C1Ai | 90.5 (3) | C2Ixv—C2G—C2Exxxvi | 102 (7) |
Si3ii—O4A—C1Biii | 96.6 (3) | C2Ixv—C2G—C2Kxi | 51 (7) |
Si3ii—O4A—C1Di | 73.8 (3) | C2Ixv—C2G—C2Lxi | 29 (7) |
C1Ai—O4A—C1Biii | 131.7 (2) | C2Kxi—C2G—C2Lxi | 22 (2) |
C1Ai—O4A—C1Di | 112.00 (18) | C2Gxii—C2I—C2Jxvi | 72 (8) |
C1Biii—O4A—C1Di | 115.83 (19) | C2Gxii—C2I—C2Kxxxi | 89 (9) |
Si2C—O4B—Si3 | 156.1 (6) | C2Kxxxi—C2I—C2Jxvi | 76 (7) |
Si2C—O4B—C1Avi | 101.0 (3) | C2Lxxxi—C2I—C2Gxii | 119 (10) |
Si2C—O4B—C1C | 81.1 (4) | C2Lxxxi—C2I—C2Jxvi | 82 (9) |
Si2C—O4B—C1Dvi | 90.0 (3) | C2Lxxxi—C2I—C2Kxxxi | 30 (6) |
Si3—O4B—C1Avi | 99.3 (3) | C2B—C2J—C2Fxx | 30 (4) |
Si3—O4B—C1C | 77.7 (4) | C2B—C2J—C2Ii | 107 (6) |
Si3—O4B—C1Dvi | 87.7 (3) | C2B—C2J—C2Kxxxvii | 76 (5) |
C1Avi—O4B—C1C | 120.5 (2) | C2B—C2J—C2Lxxxvii | 96 (5) |
C1Dvi—O4B—C1Avi | 127.4 (2) | C2Fxx—C2J—C2Ii | 91 (4) |
C1Dvi—O4B—C1C | 112.0 (2) | C2Fxx—C2J—C2Kxxxvii | 52 (2) |
Si2A—O4C—Si3i | 149.1 (6) | C2Fxx—C2J—C2Lxxxvii | 71 (3) |
Si2A—O4C—C1Ax | 79.7 (3) | C2Hi—C2J—C2B | 68 (5) |
Si2A—O4C—C1Bix | 89.9 (3) | C2Hi—C2J—C2Fxx | 91 (3) |
Si2A—O4C—C1Ci | 106.3 (4) | C2Hi—C2J—C2Ii | 88 (5) |
Si3i—O4C—C1Ax | 73.9 (3) | C2Hi—C2J—C2Kxxxvii | 101 (3) |
Si3i—O4C—C1Bix | 85.1 (3) | C2Hi—C2J—C2Lxxxvii | 111 (3) |
Si3i—O4C—C1Ci | 100.3 (3) | C2Ii—C2J—C2Kxxxvii | 41 (4) |
C1Bix—O4C—C1Ax | 111.20 (18) | C2Ii—C2J—C2Lxxxvii | 31 (4) |
C1Ci—O4C—C1Ax | 118.8 (4) | C2Kxxxvii—C2J—C2Lxxxvii | 20 (2) |
C1Ci—O4C—C1Bix | 129.3 (4) | C2A—C2K—C2Eiv | 21 (2) |
Si2Bvii—O4D—Si3i | 152.7 (6) | C2A—C2K—C2Fvii | 72 (3) |
Si2Bvii—O4D—C1Bix | 86.1 (3) | C2A—C2K—C2Gxi | 46 (3) |
Si2Bvii—O4D—C1Ci | 83.2 (4) | C2A—C2K—C2Ixxvii | 84 (6) |
Si2Bvii—O4D—C1Dx | 103.8 (3) | C2A—C2K—C2Jxxxviii | 85 (3) |
Si3i—O4D—C1Bix | 79.6 (3) | C2Eiv—C2K—C2Fvii | 54 (3) |
Si3i—O4D—C1Ci | 80.7 (4) | C2Eiv—C2K—C2Gxi | 62 (3) |
Si3i—O4D—C1Dx | 103.5 (4) | C2Eiv—C2K—C2Ixxvii | 102 (7) |
C1Bix—O4D—C1Ci | 111.5 (2) | C2Eiv—C2K—C2Jxxxviii | 84 (3) |
C1Dx—O4D—C1Bix | 124.5 (2) | C2Fvii—C2K—C2Gxi | 87 (3) |
C1Dx—O4D—C1Ci | 123.9 (2) | C2Fvii—C2K—C2Ixxvii | 114 (7) |
O1K—C1A—O1Kxxii | 180.0 | C2Fvii—C2K—C2Jxxxviii | 55 (2) |
O1K—C1A—O2Kiv | 119.36 (13) | C2Gxi—C2K—C2Jxxxviii | 58 (3) |
O1K—C1A—O2Kxxi | 60.64 (13) | C2Ixxvii—C2K—C2Gxi | 40 (6) |
O1Kxxii—C1A—O2Kxxi | 119.36 (13) | C2Ixxvii—C2K—C2Jxxxviii | 63 (6) |
O1Kxxii—C1A—O2Kiv | 60.64 (13) | C2L—C2K—C2A | 129 (8) |
O1K—C1A—O3F | 87.16 (13) | C2L—C2K—C2Eiv | 148 (8) |
O1Kxxii—C1A—O3F | 92.85 (13) | C2L—C2K—C2Fvii | 127 (8) |
O2Bxxi—C1A—O1Kxxii | 54.13 (15) | C2L—C2K—C2Gxi | 85 (7) |
O2Bxxi—C1A—O1K | 125.87 (15) | C2L—C2K—C2Ixxvii | 46 (8) |
O2Biv—C1A—O1K | 54.13 (15) | C2L—C2K—C2Jxxxviii | 77 (7) |
O2Biv—C1A—O1Kxxii | 125.87 (15) | C2A—C2L—C2Fvii | 54 (2) |
O2Biv—C1A—O2Bxxi | 180.0 | C2A—C2L—C2Gxi | 38 (2) |
O2Biv—C1A—O2F | 92.01 (15) | C2A—C2L—C2Jxxxviii | 74 (3) |
O2Bxxi—C1A—O2F | 87.99 (15) | C2Fvii—C2L—C2Jxxxviii | 49 (2) |
O2Bxxi—C1A—O2Fxxii | 92.01 (15) | C2Gxi—C2L—C2Fvii | 72 (3) |
O2Biv—C1A—O2Fxxii | 87.99 (15) | C2Gxi—C2L—C2Jxxxviii | 58 (3) |
O2Biv—C1A—O2Kiv | 65.25 (15) | C2Ixxvii—C2L—C2A | 68 (8) |
O2Biv—C1A—O2Kxxi | 114.75 (15) | C2Ixxvii—C2L—C2Fvii | 101 (9) |
O2Bxxi—C1A—O2Kiv | 114.75 (15) | C2Ixxvii—C2L—C2Gxi | 33 (8) |
O2Bxxi—C1A—O2Kxxi | 65.25 (15) | C2Ixxvii—C2L—C2Jxxxviii | 67 (9) |
O2Bxxi—C1A—O2Liv | 85.46 (16) | C2K—C2L—C2A | 37 (6) |
O2Biv—C1A—O2Liv | 94.54 (16) | C2K—C2L—C2Fvii | 38 (6) |
O2Bxxi—C1A—O2Lxxi | 94.54 (16) | C2K—C2L—C2Gxi | 72 (7) |
O2Biv—C1A—O2Lxxi | 85.46 (16) | C2K—C2L—C2Ixxvii | 104 (10) |
O2Biv—C1A—O3F | 38.23 (15) | C2K—C2L—C2Jxxxviii | 83 (7) |
O2Bxxi—C1A—O3F | 141.77 (15) |
Symmetry codes: (i) x, y+1, z; (ii) x−1, y+1, z; (iii) x, y+1/2, z−1/2; (iv) −x+1, −y+1/2, −z+1/2; (v) −x+2, −y+1/2, −z+1/2; (vi) x+1, y, z; (vii) −x+1, −y+3/2, −z+1/2; (viii) −x+2, −y+1, −z+1; (ix) x+1, y+1/2, z−1/2; (x) x+1, y+1, z; (xi) −x+1, −y+1, −z+1; (xii) −x+1/2, y−1/2, −z+1; (xiii) x, y−1/2, z+1/2; (xiv) −x+1, −y, −z+1; (xv) −x+1/2, y+1/2, −z+1; (xvi) x, y−1, z; (xvii) x, y−1/2, z−1/2; (xviii) x+1, y−1, z; (xix) x+1, y−1/2, z−1/2; (xx) −x+1/2, y, −z+1/2; (xxi) x−1, y, z; (xxii) −x, −y+1/2, −z+1/2; (xxiii) −x, −y+3/2, −z+1/2; (xxiv) −x, −y+1, −z+1; (xxv) x−1, y−1/2, z+1/2; (xxvi) x−1, y+1/2, z+1/2; (xxvii) x+1/2, −y+1/2, z; (xxviii) −x+3/2, y, −z+1/2; (xxix) x+1/2, −y, z−1/2; (xxx) −x+3/2, y−1, −z+1/2; (xxxi) x−1/2, −y+1/2, z; (xxxii) −x, −y, −z+1; (xxxiii) x−1, y−1, z; (xxxiv) x−1/2, −y+1, z+1/2; (xxxv) x+1/2, −y+1, z−1/2; (xxxvi) x, y+1/2, z+1/2; (xxxvii) x−1/2, −y+3/2, z; (xxxviii) x+1/2, −y+3/2, z. |
0.01(C46.82NaO272Si136)·0.16(C) | Dx = 1.961 Mg m−3 |
Mr = 63.35 | Mo Kα radiation, λ = 0.71073 Å |
Cubic, Fd3m | Cell parameters from 31876 reflections |
a = 19.3944 (15) Å | θ = 3–67° |
V = 7295.1 (17) Å3 | µ = 0.71 mm−1 |
Z = 136 | T = 200 K |
F(000) = 4301 | Platelet |
StoeStadiVari diffractometer | θmax = 33.4°, θmin = 3.0° |
30560 measured reflections | h = −29→30 |
720 independent reflections | k = −29→29 |
699 reflections with I > 2σ(I) | l = −14→29 |
Rint = 0.254 |
Refinement on F2 | 0 restraints |
Least-squares matrix: full | w = 1/[σ2(Fo2) + 1620.P] where P = (Fo2 + 2Fc2)/3 |
R[F2 > 2σ(F2)] = 0.200 | (Δ/σ)max < 0.001 |
wR(F2) = 0.379 | Δρmax = 1.19 e Å−3 |
S = 1.29 | Δρmin = −5.47 e Å−3 |
720 reflections | Extinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4 |
44 parameters | Extinction coefficient: 0.0013 (3) |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1 | 0.06776 (19) | 0.06776 (19) | 0.3692 (2) | 0.0287 (13) | |
Si2 | 0.21638 (17) | 0.21638 (17) | 0.21638 (17) | 0.0119 (12) | |
Si3 | 0.1250 | 0.1250 | 0.1250 | 0.015 (2) | |
O1 | 0.0000 | 0.3443 (8) | −0.3443 (8) | 0.075 (6) | |
O2 | 0.1999 (10) | 0.1999 (10) | 0.2936 (10) | 0.105 (9) | |
O3 | 0.3745 (14) | 0.1250 | 0.1250 | 0.054 (6) | |
O4 | 0.1717 (7) | 0.1717 (7) | 0.1717 (7) | 0.108 (16) | |
Na | 0.5000 | 0.5000 | 0.5000 | 0.050* | 0.06 (5) |
C1 | 0.0000 | 0.0000 | 0.0000 | 0.041 (11) | |
C2B | 0.401 (7) | 0.401 (7) | 0.401 (7) | 0.050* | 0.19 (17) |
C2C | 0.357 (6) | 0.357 (6) | 0.284 (9) | 0.050* | 0.14 (6) |
C2D | 0.359 (6) | 0.359 (6) | 0.432 (11) | 0.050* | 0.15 (7) |
C2E | 0.324 (4) | 0.324 (4) | 0.352 (6) | 0.050* | 0.20 (5) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Si1 | 0.0377 (18) | 0.0377 (18) | 0.0109 (18) | 0.0171 (18) | −0.0067 (12) | −0.0067 (12) |
Si2 | 0.0119 (12) | 0.0119 (12) | 0.0119 (12) | −0.0020 (11) | −0.0020 (11) | −0.0020 (11) |
Si3 | 0.015 (2) | 0.015 (2) | 0.015 (2) | 0.000 | 0.000 | 0.000 |
O1 | 0.053 (10) | 0.085 (9) | 0.085 (9) | −0.018 (6) | −0.018 (6) | −0.023 (10) |
O2 | 0.141 (14) | 0.141 (14) | 0.033 (9) | 0.012 (16) | 0.038 (8) | 0.038 (8) |
O3 | 0.076 (16) | 0.043 (7) | 0.043 (7) | 0.000 | 0.000 | 0.002 (10) |
O4 | 0.108 (16) | 0.108 (16) | 0.108 (16) | −0.055 (10) | −0.055 (10) | −0.055 (10) |
C1 | 0.041 (11) | 0.041 (11) | 0.041 (11) | 0.000 (12) | 0.000 (12) | 0.000 (12) |
Si1—O1i | 1.579 (3) | C2B—C2Dxxxi | 0.7 (2) |
Si1—O1ii | 1.579 (3) | C2B—C2Dvi | 0.7 (2) |
Si1—O2iii | 1.544 (16) | C2B—C2Dviii | 1.29 (14) |
Si1—O3iv | 1.573 (6) | C2B—C2Dxxxv | 0.7 (2) |
Si1—Nav | 3.144 (5) | C2B—C2D | 1.29 (14) |
Si1—Navi | 5.605 (5) | C2B—C2Dvii | 1.29 (14) |
Si2—O2vii | 1.565 (16) | C2B—C2Exxxi | 1.18 (12) |
Si2—O2 | 1.565 (16) | C2B—C2Evi | 1.18 (12) |
Si2—O2viii | 1.565 (16) | C2B—C2Exxxv | 1.18 (12) |
Si2—O4 | 1.50 (2) | C2C—C2Bxxxiii | 1.53 (17) |
Si2—Navi | 5.577 (4) | C2C—C2Bxxxiv | 1.53 (17) |
Si2—Naix | 5.577 (4) | C2C—C2Cvi | 1.0 (3) |
Si2—Nax | 5.577 (4) | C2C—C2Dxxxiv | 0.9 (2) |
Si3—O4xi | 1.57 (2) | C2C—C2Dxxxvi | 1.8 (2) |
Si3—O4iii | 1.57 (2) | C2C—C2Dxxxvii | 1.8 (2) |
Si3—O4 | 1.57 (2) | C2C—C2Dxxxiii | 0.9 (2) |
Si3—O4xii | 1.57 (2) | C2C—C2Evii | 1.01 (16) |
O1—Si1xiii | 1.579 (3) | C2C—C2Exxxvi | 1.74 (18) |
O1—Si1xiv | 1.579 (3) | C2C—C2E | 1.6 (2) |
O1—Naxv | 2.59 (2) | C2C—C2Eviii | 1.01 (16) |
O2—Si1iii | 1.544 (16) | C2C—C2Exxxvii | 1.74 (18) |
O2—Navi | 4.23 (2) | C2D—C2Bvi | 0.7 (2) |
O3—Si1vii | 1.573 (6) | C2D—C2Cxxxiv | 0.9 (2) |
O3—Si1xvi | 1.573 (6) | C2D—C2Cxxxiii | 0.9 (2) |
O3—Naxvii | 4.204 (15) | C2D—C2Dvi | 0.9 (3) |
O3—Nax | 4.204 (15) | C2D—C2Dxxxviii | 1.1 (4) |
Na—Si1xviii | 3.144 (5) | C2D—C2Dxxxix | 1.1 (4) |
Na—Si1xix | 3.144 (5) | C2D—C2Exxxi | 1.31 (12) |
Na—Si1xx | 3.144 (5) | C2D—C2Exxxv | 1.31 (12) |
Na—Si1xxi | 3.144 (5) | C2D—C2Exxxiv | 1.61 (12) |
Na—Si1xxii | 3.144 (5) | C2D—C2Exxxix | 1.02 (10) |
Na—Si1xxiii | 3.144 (5) | C2D—C2Exxxviii | 1.02 (10) |
Na—O1xxiv | 2.59 (2) | C2E—C2Bvi | 1.18 (12) |
Na—O1xxv | 2.59 (2) | C2E—C2Bxxxiii | 1.58 (14) |
Na—O1xxvi | 2.59 (2) | C2E—C2Bxxxiv | 1.58 (14) |
Na—O1xxvii | 2.59 (2) | C2E—C2Cvii | 1.01 (16) |
Na—O1xxviii | 2.59 (2) | C2E—C2Cviii | 1.01 (16) |
Na—O1xxix | 2.59 (2) | C2E—C2Dxxxvii | 1.31 (12) |
Na—C2Dxxx | 3.27 (16) | C2E—C2Dxxxviii | 1.02 (10) |
Na—C2Dxxxi | 3.27 (16) | C2E—C2Dxxxix | 1.02 (10) |
Na—C2Dxxxii | 3.27 (16) | C2E—C2Dxxxvi | 1.31 (12) |
C2B—C2Bxxxiii | 1.4 (4) | C2E—C2Eviii | 0.78 (18) |
C2B—C2Bxxxiv | 1.4 (4) | C2E—C2Evii | 0.78 (18) |
C2B—C2Bvi | 1.4 (4) | ||
O1ii—Si1—O1i | 110.1 (15) | C2Exxxi—C2B—C2Bxxxiii | 74 (10) |
O1i—Si1—Navi | 96.69 (19) | C2Evi—C2B—C2Bxxxiii | 74 (10) |
O1i—Si1—Nav | 55.1 (8) | C2Exxxv—C2B—C2Dvii | 154 (10) |
O1ii—Si1—Navi | 96.69 (19) | C2Exxxv—C2B—C2D | 64 (5) |
O1ii—Si1—Nav | 55.1 (8) | C2Exxxi—C2B—C2Dviii | 154 (10) |
O2iii—Si1—O1ii | 108.3 (7) | C2Evi—C2B—C2D | 154 (10) |
O2iii—Si1—O1i | 108.3 (7) | C2Exxxv—C2B—C2Dviii | 64 (5) |
O2iii—Si1—O3iv | 112.0 (15) | C2Evi—C2B—C2Dviii | 64 (5) |
O2iii—Si1—Navi | 135.1 (12) | C2Exxxi—C2B—C2D | 64 (5) |
O2iii—Si1—Nav | 125.5 (12) | C2Exxxi—C2B—C2Dvii | 64 (5) |
O3iv—Si1—O1i | 109.1 (6) | C2Evi—C2B—C2Dvii | 64 (5) |
O3iv—Si1—O1ii | 109.1 (6) | C2Exxxv—C2B—C2Exxxi | 120.0 (8) |
O3iv—Si1—Nav | 122.5 (10) | C2Evi—C2B—C2Exxxv | 120.0 (8) |
O3iv—Si1—Navi | 23.2 (10) | C2Evi—C2B—C2Exxxi | 120.0 (8) |
Nav—Si1—Navi | 99.33 (9) | C2Bxxxiii—C2C—C2Bxxxiv | 55 (10) |
O2viii—Si2—O2 | 110.5 (11) | C2Bxxxiii—C2C—C2Dxxxvi | 66 (10) |
O2vii—Si2—O2 | 110.5 (11) | C2Bxxxiv—C2C—C2Dxxxvii | 66 (10) |
O2vii—Si2—O2viii | 110.5 (11) | C2Bxxxiii—C2C—C2Dxxxvii | 21 (6) |
O2vii—Si2—Naix | 96.5 (9) | C2Bxxxiv—C2C—C2Dxxxvi | 21 (6) |
O2vii—Si2—Navi | 96.5 (9) | C2Bxxxiii—C2C—C2Exxxvi | 57 (9) |
O2—Si2—Navi | 26.3 (11) | C2Bxxxiv—C2C—C2E | 60 (8) |
O2—Si2—Nax | 96.5 (9) | C2Bxxxiv—C2C—C2Exxxvii | 57 (9) |
O2—Si2—Naix | 96.5 (9) | C2Bxxxiv—C2C—C2Exxxvi | 42 (6) |
O2viii—Si2—Navi | 96.5 (9) | C2Bxxxiii—C2C—C2Exxxvii | 42 (6) |
O2viii—Si2—Nax | 96.5 (9) | C2Bxxxiii—C2C—C2E | 60 (8) |
O2viii—Si2—Naix | 26.4 (11) | C2Cvi—C2C—C2Bxxxiii | 71 (6) |
O2vii—Si2—Nax | 26.4 (11) | C2Cvi—C2C—C2Bxxxiv | 71 (6) |
O4—Si2—O2 | 108.4 (11) | C2Cvi—C2C—C2Dxxxvi | 92 (7) |
O4—Si2—O2viii | 108.4 (11) | C2Cvi—C2C—C2Dxxxvii | 92 (7) |
O4—Si2—O2vii | 108.4 (11) | C2Cvi—C2C—C2Evii | 121 (10) |
O4—Si2—Nax | 134.78 (4) | C2Cvi—C2C—C2E | 125 (8) |
O4—Si2—Navi | 134.78 (4) | C2Cvi—C2C—C2Exxxvii | 30 (6) |
O4—Si2—Naix | 134.78 (4) | C2Cvi—C2C—C2Exxxvi | 30 (6) |
Naix—Si2—Nax | 75.86 (7) | C2Cvi—C2C—C2Eviii | 121 (10) |
Naix—Si2—Navi | 75.86 (7) | C2Dxxxiii—C2C—C2Bxxxiii | 57 (10) |
Nax—Si2—Navi | 75.86 (7) | C2Dxxxiv—C2C—C2Bxxxiii | 13 (9) |
O4xi—Si3—O4iii | 109.471 (2) | C2Dxxxiii—C2C—C2Bxxxiv | 13 (9) |
O4xi—Si3—O4 | 109.471 (3) | C2Dxxxiv—C2C—C2Bxxxiv | 57 (10) |
O4iii—Si3—O4xii | 109.471 (1) | C2Dxxxiv—C2C—C2Cvi | 58 (10) |
O4xii—Si3—O4 | 109.471 (4) | C2Dxxxiii—C2C—C2Cvi | 58 (10) |
O4iii—Si3—O4 | 109.471 (2) | C2Dxxxiv—C2C—C2Dxxxiii | 55 (10) |
O4xi—Si3—O4xii | 109.471 (1) | C2Dxxxiii—C2C—C2Dxxxvi | 34 (10) |
Si1xiii—O1—Si1xiv | 170.2 (15) | C2Dxxxiv—C2C—C2Dxxxvi | 72 (10) |
Si1xiii—O1—Naxv | 94.9 (8) | C2Dxxxvi—C2C—C2Dxxxvii | 68 (10) |
Si1xiv—O1—Naxv | 94.9 (8) | C2Dxxxiv—C2C—C2Dxxxvii | 34 (10) |
Si1iii—O2—Si2 | 179 (2) | C2Dxxxiii—C2C—C2Dxxxvii | 72 (10) |
Si1iii—O2—Navi | 37.2 (9) | C2Dxxxiii—C2C—C2Eviii | 63 (10) |
Si2—O2—Navi | 144.2 (14) | C2Dxxxiv—C2C—C2Evii | 63 (10) |
Si1vii—O3—Si1xvi | 173 (2) | C2Dxxxiv—C2C—C2Exxxvi | 48 (10) |
Si1vii—O3—Nax | 148.4 (13) | C2Dxxxiii—C2C—C2Exxxvi | 29 (10) |
Si1xvi—O3—Nax | 39.1 (7) | C2Dxxxiii—C2C—C2Exxxvii | 48 (10) |
Si1vii—O3—Naxvii | 39.1 (7) | C2Dxxxiv—C2C—C2Eviii | 85 (10) |
Si1xvi—O3—Naxvii | 148.4 (13) | C2Dxxxiv—C2C—C2E | 73 (10) |
Nax—O3—Naxvii | 109.3 (6) | C2Dxxxiv—C2C—C2Exxxvii | 29 (10) |
Si2—O4—Si3 | 180 (3) | C2Dxxxiii—C2C—C2E | 73 (10) |
Si1xxii—Na—Si1xix | 119.972 (5) | C2Dxxxiii—C2C—C2Evii | 85 (10) |
Si1xx—Na—Si1xix | 180.00 (12) | C2Evii—C2C—C2Bxxxiii | 50 (10) |
Si1xxiii—Na—Si1xix | 60.028 (5) | C2Eviii—C2C—C2Bxxxiii | 73 (10) |
Si1xxiii—Na—Si1xxi | 119.972 (5) | C2Evii—C2C—C2Bxxxiv | 73 (10) |
Si1xxii—Na—Si1xxi | 60.028 (5) | C2Eviii—C2C—C2Bxxxiv | 50 (10) |
Si1xxiii—Na—Si1xviii | 60.028 (5) | C2Exxxvii—C2C—C2Dxxxvii | 63 (7) |
Si1xxii—Na—Si1xviii | 119.972 (5) | C2Eviii—C2C—C2Dxxxvii | 64 (10) |
Si1xix—Na—Si1xxi | 60.028 (5) | C2Evii—C2C—C2Dxxxvi | 64 (10) |
Si1xx—Na—Si1xviii | 60.028 (5) | C2E—C2C—C2Dxxxvii | 46 (8) |
Si1xxii—Na—Si1xxiii | 180.0 | C2E—C2C—C2Dxxxvi | 46 (8) |
Si1xxi—Na—Si1xviii | 180.0 | C2Eviii—C2C—C2Dxxxvi | 30 (10) |
Si1xix—Na—Si1xviii | 119.972 (5) | C2Exxxvi—C2C—C2Dxxxvi | 63 (7) |
Si1xxii—Na—Si1xx | 60.028 (5) | C2Exxxvi—C2C—C2Dxxxvii | 78 (9) |
Si1xxiii—Na—Si1xx | 119.972 (5) | C2Evii—C2C—C2Dxxxvii | 30 (10) |
Si1xx—Na—Si1xxi | 119.972 (5) | C2Exxxvii—C2C—C2Dxxxvi | 78 (9) |
Si1xx—Na—C2Dxxxii | 85.3 (19) | C2Eviii—C2C—C2Evii | 45 (10) |
Si1xviii—Na—C2Dxxxi | 85.3 (19) | C2E—C2C—C2Exxxvii | 97 (10) |
Si1xxi—Na—C2Dxxx | 85.3 (19) | C2Evii—C2C—C2Exxxvi | 102 (10) |
Si1xxiii—Na—C2Dxxxii | 102 (4) | C2Evii—C2C—C2Exxxvii | 92 (10) |
Si1xx—Na—C2Dxxx | 102 (4) | C2Eviii—C2C—C2Exxxvi | 92 (10) |
Si1xix—Na—C2Dxxx | 78 (4) | C2Evii—C2C—C2E | 23 (7) |
Si1xxii—Na—C2Dxxxii | 78 (4) | C2Eviii—C2C—C2Exxxvii | 102 (10) |
Si1xxi—Na—C2Dxxxii | 85.3 (19) | C2Eviii—C2C—C2E | 23 (7) |
Si1xxiii—Na—C2Dxxxi | 94.7 (19) | C2E—C2C—C2Exxxvi | 97 (10) |
Si1xxiii—Na—C2Dxxx | 85.3 (19) | C2Exxxvi—C2C—C2Exxxvii | 26 (7) |
Si1xx—Na—C2Dxxxi | 78 (4) | C2Bvi—C2D—C2B | 87 (10) |
Si1xviii—Na—C2Dxxxii | 94.7 (19) | C2Bvi—C2D—C2Cxxxiii | 147 (10) |
Si1xix—Na—C2Dxxxi | 102 (4) | C2Bvi—C2D—C2Cxxxiv | 147 (10) |
Si1xviii—Na—C2Dxxx | 94.7 (19) | C2Bvi—C2D—C2Dxxxix | 32 (9) |
Si1xxi—Na—C2Dxxxi | 94.7 (19) | C2Bvi—C2D—C2Dvi | 115 (10) |
Si1xxii—Na—C2Dxxxi | 85.3 (19) | C2Bvi—C2D—C2Dxxxviii | 32 (9) |
Si1xxii—Na—C2Dxxx | 94.7 (19) | C2Bvi—C2D—C2Exxxiv | 75 (10) |
Si1xix—Na—C2Dxxxii | 94.7 (19) | C2B—C2D—C2Exxxiv | 65 (7) |
O1xxv—Na—Si1xxi | 90.000 (1) | C2Bvi—C2D—C2Exxxi | 101 (10) |
O1xxvii—Na—Si1xviii | 149.986 (3) | C2B—C2D—C2Exxxv | 54 (7) |
O1xxvii—Na—Si1xxiii | 149.986 (2) | C2Bvi—C2D—C2Exxxviii | 86 (10) |
O1xxiv—Na—Si1xxi | 149.986 (3) | C2Bvi—C2D—C2Exxxix | 86 (10) |
O1xxviii—Na—Si1xxiii | 90.000 (1) | C2B—C2D—C2Exxxi | 54 (7) |
O1xxvii—Na—Si1xxi | 30.014 (3) | C2Bvi—C2D—C2Exxxv | 101 (10) |
O1xxv—Na—Si1xx | 149.986 (3) | C2Cxxxiv—C2D—C2B | 85 (10) |
O1xxix—Na—Si1xviii | 149.986 (3) | C2Cxxxiii—C2D—C2B | 85 (10) |
O1xxiv—Na—Si1xix | 90.0 | C2Cxxxiv—C2D—C2Cxxxiii | 63 (10) |
O1xxviii—Na—Si1xviii | 30.014 (2) | C2Cxxxiii—C2D—C2Dxxxix | 118 (10) |
O1xxvii—Na—Si1xix | 90.0 | C2Cxxxiv—C2D—C2Dxxxix | 177 (10) |
O1xxvi—Na—Si1xviii | 90.0 | C2Cxxxiii—C2D—C2Dxxxviii | 177 (10) |
O1xxix—Na—Si1xxi | 30.014 (3) | C2Cxxxiv—C2D—C2Dxxxviii | 118 (10) |
O1xxvi—Na—Si1xxii | 30.014 (3) | C2Cxxxiii—C2D—C2Exxxiv | 128 (10) |
O1xxix—Na—Si1xxii | 90.000 (1) | C2Cxxxiv—C2D—C2Exxxv | 100 (10) |
O1xxviii—Na—Si1xxi | 149.986 (3) | C2Cxxxiv—C2D—C2Exxxi | 50 (10) |
O1xxviii—Na—Si1xxii | 90.0 | C2Cxxxiv—C2D—C2Exxxix | 62 (10) |
O1xxv—Na—Si1xviii | 90.0 | C2Cxxxiv—C2D—C2Exxxviii | 125 (10) |
O1xxix—Na—Si1xxiii | 90.0 | C2Cxxxiii—C2D—C2Exxxviii | 62 (10) |
O1xxix—Na—Si1xix | 30.014 (2) | C2Cxxxiii—C2D—C2Exxxix | 125 (10) |
O1xxvi—Na—Si1xxiii | 149.986 (3) | C2Cxxxiii—C2D—C2Exxxi | 100 (10) |
O1xxvii—Na—Si1xx | 90.0 | C2Cxxxiii—C2D—C2Exxxv | 50 (10) |
O1xxiv—Na—Si1xxiii | 30.014 (2) | C2Cxxxiv—C2D—C2Exxxiv | 73 (10) |
O1xxv—Na—Si1xxiii | 30.014 (3) | C2Dvi—C2D—C2B | 27 (10) |
O1xxix—Na—Si1xx | 149.986 (3) | C2Dxxxviii—C2D—C2B | 97 (10) |
O1xxviii—Na—Si1xix | 149.986 (3) | C2Dxxxix—C2D—C2B | 97 (10) |
O1xxvi—Na—Si1xx | 30.014 (2) | C2Dvi—C2D—C2Cxxxiii | 62 (10) |
O1xxvii—Na—Si1xxii | 30.014 (3) | C2Dvi—C2D—C2Cxxxiv | 62 (10) |
O1xxiv—Na—Si1xx | 90.000 (1) | C2Dvi—C2D—C2Dxxxviii | 120.00 (9) |
O1xxvi—Na—Si1xix | 149.986 (3) | C2Dxxxviii—C2D—C2Dxxxix | 60.00 (4) |
O1xxiv—Na—Si1xviii | 30.014 (2) | C2Dvi—C2D—C2Dxxxix | 120.00 (5) |
O1xxviii—Na—Si1xx | 30.014 (2) | C2Dxxxviii—C2D—C2Exxxi | 83 (10) |
O1xxvi—Na—Si1xxi | 90.0 | C2Dvi—C2D—C2Exxxi | 51 (7) |
O1xxv—Na—Si1xix | 30.014 (2) | C2Dvi—C2D—C2Exxxv | 51 (7) |
O1xxv—Na—Si1xxii | 149.986 (3) | C2Dvi—C2D—C2Exxxiv | 74 (6) |
O1xxiv—Na—Si1xxii | 149.986 (3) | C2Dxxxviii—C2D—C2Exxxiv | 54 (8) |
O1xxix—Na—O1xxiv | 120.000 (1) | C2Dxxxix—C2D—C2Exxxiv | 107 (9) |
O1xxv—Na—O1xxiv | 60.000 (1) | C2Dxxxviii—C2D—C2Exxxv | 130 (10) |
O1xxv—Na—O1xxvii | 120.000 (1) | C2Dvi—C2D—C2Exxxviii | 87 (10) |
O1xxvi—Na—O1xxv | 180.0 | C2Dxxxix—C2D—C2Exxxv | 83 (10) |
O1xxviii—Na—O1xxvii | 120.000 (1) | C2Dvi—C2D—C2Exxxix | 87 (10) |
O1xxvi—Na—O1xxvii | 60.000 (1) | C2Dxxxix—C2D—C2Exxxi | 130 (10) |
O1xxix—Na—O1xxvi | 120.000 (1) | C2Exxxviii—C2D—C2B | 85 (10) |
O1xxviii—Na—O1xxiv | 60.000 (1) | C2Exxxix—C2D—C2B | 85 (10) |
O1xxviii—Na—O1xxvi | 60.0 | C2Exxxviii—C2D—C2Dxxxviii | 117 (10) |
O1xxix—Na—O1xxvii | 60.000 (1) | C2Exxxviii—C2D—C2Dxxxix | 57 (10) |
O1xxix—Na—O1xxv | 60.0 | C2Exxxix—C2D—C2Dxxxix | 117 (10) |
O1xxvi—Na—O1xxiv | 120.000 (1) | C2Exxxix—C2D—C2Dxxxviii | 57 (10) |
O1xxviii—Na—O1xxv | 120.000 (1) | C2Exxxix—C2D—C2Exxxiv | 23 (8) |
O1xxiv—Na—O1xxvii | 180.0 | C2Exxxviii—C2D—C2Exxxiv | 145 (10) |
O1xxix—Na—O1xxviii | 180.0 | C2Exxxviii—C2D—C2Exxxix | 168 (10) |
O1xxv—Na—C2Dxxxii | 100 (3) | C2Exxxv—C2D—C2Exxxiv | 118 (10) |
O1xxiv—Na—C2Dxxxii | 100 (3) | C2Exxxi—C2D—C2Exxxiv | 29 (6) |
O1xxviii—Na—C2Dxxxii | 90.000 (13) | C2Exxxviii—C2D—C2Exxxv | 36 (10) |
O1xxiv—Na—C2Dxxxi | 90.00 (2) | C2Exxxviii—C2D—C2Exxxi | 137 (10) |
O1xxiv—Na—C2Dxxx | 90.000 (7) | C2Exxxv—C2D—C2Exxxi | 102 (10) |
O1xxvii—Na—C2Dxxx | 90.00 (3) | C2Exxxix—C2D—C2Exxxv | 137 (10) |
O1xxvi—Na—C2Dxxxii | 80 (3) | C2Exxxix—C2D—C2Exxxi | 36 (10) |
O1xxix—Na—C2Dxxx | 80 (3) | C2Bvi—C2E—C2Bxxxiv | 60 (10) |
O1xxv—Na—C2Dxxx | 80 (3) | C2Bxxxiii—C2E—C2Bxxxiv | 53 (10) |
O1xxvii—Na—C2Dxxxii | 80 (3) | C2Bvi—C2E—C2Bxxxiii | 60 (10) |
O1xxix—Na—C2Dxxxii | 90.00 (2) | C2Bxxxiii—C2E—C2C | 57 (7) |
O1xxviii—Na—C2Dxxx | 100 (3) | C2Bvi—C2E—C2C | 109 (10) |
O1xxvi—Na—C2Dxxxi | 80 (3) | C2Bxxxiv—C2E—C2C | 57 (7) |
O1xxviii—Na—C2Dxxxi | 80 (3) | C2Bvi—C2E—C2Dxxxvii | 62 (9) |
O1xxvi—Na—C2Dxxx | 100 (3) | C2Bvi—C2E—C2Dxxxvi | 62 (9) |
O1xxv—Na—C2Dxxxi | 100 (3) | C2Cviii—C2E—C2Bvi | 89 (10) |
O1xxvii—Na—C2Dxxxi | 90.000 (4) | C2Cvii—C2E—C2Bxxxiv | 69 (10) |
O1xxix—Na—C2Dxxxi | 100 (3) | C2Cviii—C2E—C2Bxxxiii | 69 (10) |
C2Dxxxi—Na—C2Dxxx | 180.0 | C2Cviii—C2E—C2Bxxxiv | 122 (10) |
C2Dxxxi—Na—C2Dxxxii | 160 (7) | C2Cvii—C2E—C2Bxxxiii | 122 (10) |
C2Dxxx—Na—C2Dxxxii | 20 (7) | C2Cvii—C2E—C2Bvi | 89 (10) |
C2Bxxxiii—C2B—C2Bxxxiv | 60.00 (3) | C2Cviii—C2E—C2Cvii | 165 (10) |
C2Bxxxiii—C2B—C2Bvi | 59.998 (16) | C2Cviii—C2E—C2C | 97 (7) |
C2Bvi—C2B—C2Bxxxiv | 60.00 (2) | C2Cvii—C2E—C2C | 97 (7) |
C2Dviii—C2B—C2Bxxxiii | 83 (10) | C2Cvii—C2E—C2Dxxxvii | 143 (10) |
C2Dxxxi—C2B—C2Bvi | 116 (10) | C2Cvii—C2E—C2Dxxxvi | 45 (10) |
C2Dxxxv—C2B—C2Bvi | 116 (10) | C2Cviii—C2E—C2Dxxxvi | 143 (10) |
C2Dvii—C2B—C2Bxxxiii | 27 (10) | C2Cvii—C2E—C2Dxxxviii | 120 (10) |
C2Dviii—C2B—C2Bvi | 83 (10) | C2Cviii—C2E—C2Dxxxvii | 45 (10) |
C2D—C2B—C2Bxxxiii | 83 (10) | C2Cviii—C2E—C2Dxxxviii | 55 (10) |
C2Dxxxv—C2B—C2Bxxxiv | 116 (10) | C2Cviii—C2E—C2Dxxxix | 120 (10) |
C2Dvii—C2B—C2Bvi | 83 (10) | C2Cvii—C2E—C2Dxxxix | 55 (10) |
C2Dvi—C2B—C2Bxxxiv | 116 (10) | C2Dxxxviii—C2E—C2Bxxxiii | 55 (10) |
C2Dxxxv—C2B—C2Bxxxiii | 65 (10) | C2Dxxxvii—C2E—C2Bxxxiv | 76 (10) |
C2Dvii—C2B—C2Bxxxiv | 83 (10) | C2Dxxxix—C2E—C2Bxxxiv | 55 (10) |
C2Dviii—C2B—C2Bxxxiv | 27 (10) | C2Dxxxix—C2E—C2Bxxxiii | 85 (10) |
C2Dvi—C2B—C2Bxxxiii | 116 (10) | C2Dxxxix—C2E—C2Bvi | 34 (10) |
C2Dxxxi—C2B—C2Bxxxiii | 116 (10) | C2Dxxxvi—C2E—C2Bxxxiv | 24 (10) |
C2Dvi—C2B—C2Bvi | 65 (10) | C2Dxxxviii—C2E—C2Bvi | 34 (10) |
C2Dxxxi—C2B—C2Bxxxiv | 65 (10) | C2Dxxxvi—C2E—C2Bxxxiii | 76 (10) |
C2D—C2B—C2Bvi | 27 (10) | C2Dxxxvii—C2E—C2Bxxxiii | 24 (10) |
C2D—C2B—C2Bxxxiv | 83 (10) | C2Dxxxviii—C2E—C2Bxxxiv | 85 (10) |
C2Dxxxv—C2B—C2Dvii | 38 (10) | C2Dxxxvi—C2E—C2C | 74 (10) |
C2Dxxxv—C2B—C2Dxxxi | 117 (10) | C2Dxxxviii—C2E—C2C | 112 (10) |
C2Dvi—C2B—C2D | 38 (10) | C2Dxxxvii—C2E—C2C | 74 (10) |
C2Dvii—C2B—C2D | 101 (10) | C2Dxxxix—C2E—C2C | 112 (10) |
C2Dxxxi—C2B—C2Dviii | 38 (10) | C2Dxxxviii—C2E—C2Dxxxix | 66 (10) |
C2Dvi—C2B—C2Dviii | 121 (10) | C2Dxxxvii—C2E—C2Dxxxvi | 98 (10) |
C2Dviii—C2B—C2Dvii | 101 (10) | C2Dxxxviii—C2E—C2Dxxxvi | 94 (10) |
C2Dxxxi—C2B—C2Dvii | 121 (10) | C2Dxxxviii—C2E—C2Dxxxvii | 41 (10) |
C2Dxxxv—C2B—C2D | 121 (10) | C2Dxxxix—C2E—C2Dxxxvii | 94 (10) |
C2Dxxxv—C2B—C2Dvi | 117 (10) | C2Dxxxix—C2E—C2Dxxxvi | 41 (10) |
C2Dxxxv—C2B—C2Dviii | 121 (10) | C2Evii—C2E—C2Bxxxiii | 46 (8) |
C2Dvi—C2B—C2Dvii | 121 (10) | C2Eviii—C2E—C2Bxxxiv | 46 (8) |
C2Dxxxi—C2B—C2Dvi | 117 (10) | C2Eviii—C2E—C2Bvi | 106 (10) |
C2Dviii—C2B—C2D | 101 (10) | C2Evii—C2E—C2Bxxxiv | 76 (3) |
C2Dxxxi—C2B—C2D | 121 (10) | C2Evii—C2E—C2Bvi | 106 (10) |
C2Dxxxi—C2B—C2Exxxi | 168 (10) | C2Eviii—C2E—C2Bxxxiii | 76 (3) |
C2Dvi—C2B—C2Exxxv | 60.3 (16) | C2Eviii—C2E—C2Cvii | 67 (7) |
C2Dxxxv—C2B—C2Exxxi | 60.3 (16) | C2Evii—C2E—C2C | 30.01 (14) |
C2Dxxxi—C2B—C2Evi | 60.3 (15) | C2Evii—C2E—C2Cviii | 67 (7) |
C2Dvi—C2B—C2Evi | 168 (10) | C2Evii—C2E—C2Cvii | 127 (7) |
C2Dxxxi—C2B—C2Exxxv | 60.3 (16) | C2Eviii—C2E—C2C | 30.01 (14) |
C2Dxxxv—C2B—C2Evi | 60.3 (15) | C2Eviii—C2E—C2Cviii | 127 (7) |
C2Dvi—C2B—C2Exxxi | 60.3 (15) | C2Evii—C2E—C2Dxxxviii | 93 (10) |
C2Dxxxv—C2B—C2Exxxv | 168 (10) | C2Eviii—C2E—C2Dxxxvi | 51 (7) |
C2Exxxv—C2B—C2Bxxxiii | 126 (10) | C2Eviii—C2E—C2Dxxxviii | 126 (10) |
C2Evi—C2B—C2Bvi | 126 (10) | C2Eviii—C2E—C2Dxxxix | 93 (10) |
C2Exxxv—C2B—C2Bxxxiv | 74 (10) | C2Evii—C2E—C2Dxxxvi | 97 (10) |
C2Exxxi—C2B—C2Bxxxiv | 126 (10) | C2Eviii—C2E—C2Dxxxvii | 97 (10) |
C2Evi—C2B—C2Bxxxiv | 74 (10) | C2Evii—C2E—C2Dxxxix | 126 (10) |
C2Exxxi—C2B—C2Bvi | 74 (10) | C2Evii—C2E—C2Dxxxvii | 51 (7) |
C2Exxxv—C2B—C2Bvi | 74 (10) | C2Eviii—C2E—C2Evii | 60.00 (4) |
Symmetry codes: (i) y−1/4, −x, z+3/4; (ii) −x, y−1/4, z+3/4; (iii) −x+1/4, −y+1/4, z; (iv) −z+1/4, −y+1/4, x; (v) x−1/2, y−1/2, z; (vi) −x+3/4, −y+3/4, z; (vii) z, x, y; (viii) y, z, x; (ix) y−1/4, −x+1, z−1/4; (x) −y+1, x−1/4, z−1/4; (xi) −y+1/4, x, −z+1/4; (xii) y, −x+1/4, −z+1/4; (xiii) y, −z+3/4, −x−1/4; (xiv) −y, x+1/4, z−3/4; (xv) −y+1/2, x−1/4, z−3/4; (xvi) z, −y+1/4, −x+1/4; (xvii) x, y−1/2, z−1/2; (xviii) z, x+1/2, y+1/2; (xix) y+1/2, z, x+1/2; (xx) −y+1/2, −z+1, −x+1/2; (xxi) −z+1, −x+1/2, −y+1/2; (xxii) x+1/2, y+1/2, z; (xxiii) −x+1/2, −y+1/2, −z+1; (xxiv) −y+3/4, x+1/2, −z+1/4; (xxv) x+1/2, −y+3/4, −z+1/4; (xxvi) −x+1/2, y+1/4, z+3/4; (xxvii) y+1/4, −x+1/2, z+3/4; (xxviii) z+3/4, y+1/4, −x+1/2; (xxix) −z+1/4, −y+3/4, x+1/2; (xxx) x+1/4, −z+1, y+1/4; (xxxi) −x+3/4, z, −y+3/4; (xxxii) x+1/4, y+1/4, −z+1; (xxxiii) y, −x+3/4, −z+3/4; (xxxiv) −y+3/4, x, −z+3/4; (xxxv) z, −y+3/4, −x+3/4; (xxxvi) −z+3/4, −y+3/4, x; (xxxvii) −x+3/4, −z+3/4, y; (xxxviii) y, −z+3/4, −x+3/4; (xxxix) −z+3/4, x, −y+3/4. |
0.02(C16O272Si136)·0.02(C25.19) | F(000) = 4301 |
Mr = 143.59 | Dx = 1.941 Mg m−3 |
Monoclinic, A2/n | Mo Kα radiation, λ = 0.71073 Å |
a = 23.834 (5) Å | Cell parameters from 61815 reflections |
b = 13.760 (5) Å | θ = 3–67° |
c = 23.833 (3) Å | µ = 0.70 mm−1 |
β = 109.47° | T = 150 K |
V = 7369 (3) Å3 | Platelet |
Z = 60 |
StoeStadiVari diffractometer | θmax = 33.3°, θmin = 2.1° |
92644 measured reflections | h = −20→36 |
19202 independent reflections | k = −20→21 |
8416 reflections with I > 2σ(I) | l = −36→28 |
Rint = 0.113 |
Refinement on F2 | 533 parameters |
Least-squares matrix: full | 0 restraints |
R[F2 > 2σ(F2)] = 0.064 | w = 1/[σ2(Fo2) + (0.1P)2] where P = (Fo2 + 2Fc2)/3 |
wR(F2) = 0.186 | (Δ/σ)max = 0.199 |
S = 0.84 | Δρmax = 0.98 e Å−3 |
19202 reflections | Δρmin = −1.07 e Å−3 |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
Refinement. Refined as a 2-component twin. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1A | 0.01255 (5) | 0.99955 (9) | 0.14425 (5) | 0.01022 (19) | |
Si1B | 0.18526 (6) | 0.19888 (9) | 0.25447 (6) | 0.0127 (2) | |
Si1C | 0.18581 (6) | 0.78647 (9) | 0.25715 (6) | 0.0116 (2) | |
Si1D | 0.99762 (6) | 0.31274 (10) | 0.43514 (6) | 0.0137 (2) | |
Si1E | 0.99739 (6) | 0.69119 (9) | 0.43333 (5) | 0.0127 (2) | |
Si1F | 0.18500 (6) | 0.88666 (9) | 0.57111 (6) | 0.0139 (2) | |
Si1G | 0.18681 (6) | 0.11637 (9) | 0.56426 (6) | 0.0134 (2) | |
Si1H | 0.18305 (6) | 0.31283 (9) | 0.36969 (6) | 0.0139 (2) | |
Si1I | 0.18267 (6) | 0.68923 (9) | 0.37785 (6) | 0.0139 (2) | |
Si1J | 0.13089 (6) | 0.99395 (10) | 0.25838 (5) | 0.0130 (2) | |
Si1K | 0.11160 (6) | 0.81703 (10) | 0.44057 (6) | 0.0141 (2) | |
Si1L | 0.11105 (6) | 0.19243 (10) | 0.43494 (6) | 0.0136 (2) | |
Si2A | 0.89241 (5) | 0.99623 (10) | 0.17242 (5) | 0.0122 (2) | |
Si2B | 0.10943 (6) | 0.67865 (9) | 0.14082 (6) | 0.0119 (2) | |
Si2C | 0.89395 (6) | 0.18440 (9) | 0.35575 (6) | 0.0134 (2) | |
Si2D | 0.07433 (6) | 0.00137 (10) | 0.35939 (5) | 0.0123 (2) | |
Si3 | 0.93746 (6) | 0.99888 (10) | 0.30891 (6) | 0.0144 (2) | |
O1A | 0.2500 | 0.2135 (5) | 0.2500 | 0.0329 (14) | |
O1B | 0.2500 | 0.7757 (5) | 0.2500 | 0.0295 (13) | |
O1C | 0.0096 (3) | 0.9024 (3) | 0.1072 (2) | 0.0411 (12) | |
O1D | 0.2497 (2) | 0.8392 (4) | 0.5921 (3) | 0.0426 (12) | |
O1E | 0.9997 (2) | 0.3407 (3) | 0.50121 (17) | 0.0264 (8) | |
O1F | 0.3549 (2) | 0.6532 (4) | 0.49968 (19) | 0.0359 (11) | |
O1G | 0.1463 (2) | 0.8375 (4) | 0.50924 (19) | 0.0375 (11) | |
O1H | 0.1576 (2) | 0.2469 (4) | 0.4109 (2) | 0.0380 (11) | |
O1I | 0.1699 (2) | 0.8985 (3) | 0.2574 (2) | 0.0311 (9) | |
O1J | 0.1555 (2) | 0.7677 (3) | 0.4116 (2) | 0.0342 (11) | |
O1K | 0.0155 (2) | 0.0916 (3) | 0.1047 (2) | 0.0340 (10) | |
O1L | 0.25168 (19) | 0.1620 (3) | 0.57747 (19) | 0.0294 (9) | |
O1M | 0.1735 (2) | 0.0855 (3) | 0.2592 (2) | 0.0313 (9) | |
O2A | 0.1360 (2) | 0.7348 (3) | 0.20245 (18) | 0.0291 (9) | |
O2B | 0.8640 (2) | 0.2622 (4) | 0.3050 (2) | 0.0416 (12) | |
O2C | 0.8595 (3) | 0.9041 (4) | 0.1349 (2) | 0.0414 (12) | |
O2D | 0.0600 (2) | 0.7414 (4) | 0.0931 (2) | 0.0410 (12) | |
O2E | 0.9444 (2) | 0.2362 (4) | 0.4089 (2) | 0.0360 (11) | |
O2F | 0.0810 (3) | 0.1045 (4) | 0.3915 (2) | 0.0411 (12) | |
O2G | 0.8462 (2) | 0.1356 (4) | 0.37968 (19) | 0.0331 (10) | |
O2H | 0.1161 (2) | 0.9935 (4) | 0.3192 (2) | 0.0377 (11) | |
O2I | 0.0891 (3) | 0.9192 (4) | 0.4086 (2) | 0.0440 (14) | |
O2J | 0.1614 (2) | 0.6542 (4) | 0.11477 (19) | 0.0359 (11) | |
O2K | 0.8555 (3) | 0.0907 (4) | 0.1469 (3) | 0.0573 (17) | |
O2L | 0.9565 (2) | 0.0082 (4) | 0.1657 (2) | 0.0379 (12) | |
O3A | 0.07115 (18) | 0.9973 (3) | 0.20203 (18) | 0.0292 (8) | |
O3B | 0.1901 (2) | 0.0005 (3) | 0.5638 (3) | 0.0375 (9) | |
O3C | 0.9408 (2) | 0.2337 (4) | 0.0636 (2) | 0.0326 (10) | |
O3D | 0.0560 (2) | 0.7480 (4) | 0.4354 (2) | 0.0367 (11) | |
O3E | 0.1860 (2) | 0.7347 (3) | 0.31766 (18) | 0.0302 (9) | |
O3F | 0.1804 (3) | 0.2549 (4) | 0.3113 (2) | 0.0412 (13) | |
O4A | 0.00687 (18) | 0.9907 (4) | 0.3164 (2) | 0.0306 (9) | |
O4B | 0.9257 (3) | 0.1054 (4) | 0.3279 (3) | 0.0525 (16) | |
O4C | 0.8993 (2) | 0.9800 (4) | 0.24046 (18) | 0.0370 (12) | |
O4D | 0.9210 (3) | 0.9208 (4) | 0.3497 (2) | 0.0457 (14) | |
C1A | 0.0000 | 0.2500 | 0.2500 | 0.048 (3) | |
C1B | 0.0000 | 0.2500 | 0.7500 | 0.051 (3) | |
C1C | 0.7500 | 0.0023 (9) | 0.2500 | 0.047 (2) | |
C1D | 0.0000 | 0.0000 | 0.5000 | 0.049 (3) | |
C2A | 0.8139 (10) | 0.4134 (16) | 0.4082 (10) | 0.050* | 0.42 (2) |
C2B | 0.3017 (13) | 0.908 (2) | 0.4048 (13) | 0.050* | 0.32 (2) |
C2C | 0.8257 (17) | 0.094 (3) | −0.0377 (16) | 0.050* | 0.24 (2) |
C2D | 0.2735 (17) | 0.071 (3) | 0.4444 (17) | 0.050* | 0.24 (2) |
C2E | 0.1851 (15) | 0.007 (3) | 0.1213 (15) | 0.050* | 0.28 (2) |
C2F | 0.1815 (17) | 0.945 (3) | 0.1121 (17) | 0.050* | 0.24 (2) |
C2G | 0.1778 (15) | 0.586 (2) | 0.5341 (14) | 0.050* | 0.28 (2) |
C2H | 0.254 (2) | −0.004 (3) | 0.452 (2) | 0.050* | 0.21 (3) |
C2I | 0.2929 (15) | −0.013 (2) | 0.4778 (15) | 0.050* | 0.27 (2) |
C2J | 0.2816 (19) | 0.922 (3) | 0.4566 (18) | 0.050* | 0.23 (2) |
C2K | 0.870 (2) | 0.504 (4) | 0.446 (3) | 0.050* | 0.18 (3) |
C2L | 0.877 (2) | 0.498 (3) | 0.478 (2) | 0.050* | 0.21 (3) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Si1A | 0.0146 (5) | 0.0091 (5) | 0.0093 (5) | −0.0010 (5) | 0.0069 (4) | −0.0003 (4) |
Si1B | 0.0133 (6) | 0.0125 (5) | 0.0139 (5) | 0.0011 (4) | 0.0065 (5) | 0.0019 (4) |
Si1C | 0.0126 (6) | 0.0129 (5) | 0.0112 (5) | −0.0004 (4) | 0.0063 (5) | −0.0018 (4) |
Si1D | 0.0179 (7) | 0.0124 (5) | 0.0098 (5) | −0.0018 (5) | 0.0032 (5) | 0.0028 (4) |
Si1E | 0.0172 (6) | 0.0103 (5) | 0.0099 (5) | 0.0013 (5) | 0.0036 (5) | −0.0025 (4) |
Si1F | 0.0129 (6) | 0.0158 (6) | 0.0132 (5) | 0.0008 (5) | 0.0045 (5) | 0.0020 (4) |
Si1G | 0.0138 (6) | 0.0164 (6) | 0.0109 (5) | −0.0008 (5) | 0.0053 (5) | −0.0015 (4) |
Si1H | 0.0147 (6) | 0.0102 (5) | 0.0195 (6) | 0.0004 (5) | 0.0091 (5) | 0.0005 (4) |
Si1I | 0.0145 (6) | 0.0110 (5) | 0.0186 (6) | −0.0006 (4) | 0.0087 (5) | 0.0006 (4) |
Si1J | 0.0158 (5) | 0.0118 (5) | 0.0136 (5) | −0.0001 (5) | 0.0080 (4) | −0.0007 (4) |
Si1K | 0.0184 (7) | 0.0142 (6) | 0.0106 (5) | 0.0038 (5) | 0.0061 (5) | 0.0027 (4) |
Si1L | 0.0163 (6) | 0.0148 (6) | 0.0107 (5) | −0.0035 (5) | 0.0060 (5) | −0.0013 (4) |
Si2A | 0.0116 (5) | 0.0126 (5) | 0.0132 (5) | 0.0001 (5) | 0.0053 (4) | 0.0021 (4) |
Si2B | 0.0134 (6) | 0.0120 (5) | 0.0106 (5) | −0.0005 (5) | 0.0045 (4) | 0.0010 (4) |
Si2C | 0.0157 (6) | 0.0117 (5) | 0.0127 (5) | −0.0005 (5) | 0.0046 (5) | −0.0010 (4) |
Si2D | 0.0167 (5) | 0.0115 (5) | 0.0086 (5) | 0.0013 (5) | 0.0042 (4) | 0.0004 (4) |
Si3 | 0.0175 (5) | 0.0137 (5) | 0.0139 (5) | −0.0030 (5) | 0.0078 (4) | −0.0012 (5) |
O1A | 0.016 (3) | 0.027 (3) | 0.061 (4) | 0.000 | 0.020 (3) | 0.000 |
O1B | 0.020 (3) | 0.032 (3) | 0.043 (4) | 0.000 | 0.019 (3) | 0.000 |
O1C | 0.066 (4) | 0.026 (2) | 0.032 (2) | −0.003 (2) | 0.017 (2) | −0.0186 (18) |
O1D | 0.021 (2) | 0.050 (3) | 0.056 (3) | 0.017 (2) | 0.012 (2) | 0.007 (2) |
O1E | 0.041 (2) | 0.0251 (19) | 0.0139 (16) | 0.0012 (18) | 0.0096 (15) | 0.0018 (14) |
O1F | 0.039 (3) | 0.045 (3) | 0.0191 (19) | −0.004 (2) | 0.0044 (18) | −0.0127 (18) |
O1G | 0.045 (3) | 0.044 (3) | 0.019 (2) | −0.010 (2) | 0.0054 (19) | −0.0102 (18) |
O1H | 0.038 (3) | 0.046 (3) | 0.039 (3) | −0.012 (2) | 0.025 (2) | 0.007 (2) |
O1I | 0.032 (2) | 0.0169 (18) | 0.045 (3) | 0.0042 (16) | 0.013 (2) | −0.0020 (17) |
O1J | 0.037 (3) | 0.034 (2) | 0.041 (3) | 0.0065 (19) | 0.025 (2) | −0.0076 (19) |
O1K | 0.048 (3) | 0.024 (2) | 0.030 (2) | −0.0009 (19) | 0.013 (2) | 0.0176 (17) |
O1L | 0.022 (2) | 0.038 (2) | 0.029 (2) | −0.0120 (17) | 0.0098 (17) | −0.0094 (17) |
O1M | 0.028 (2) | 0.0183 (19) | 0.046 (3) | −0.0073 (16) | 0.010 (2) | 0.0020 (17) |
O2A | 0.028 (2) | 0.037 (2) | 0.023 (2) | −0.0073 (18) | 0.0093 (17) | −0.0150 (17) |
O2B | 0.029 (2) | 0.050 (3) | 0.038 (3) | 0.000 (2) | 0.000 (2) | 0.027 (2) |
O2C | 0.052 (3) | 0.034 (3) | 0.040 (3) | −0.024 (2) | 0.017 (2) | −0.007 (2) |
O2D | 0.038 (3) | 0.050 (3) | 0.029 (2) | 0.027 (2) | 0.003 (2) | 0.008 (2) |
O2E | 0.042 (3) | 0.035 (2) | 0.023 (2) | −0.023 (2) | 0.0005 (19) | 0.0012 (18) |
O2F | 0.052 (3) | 0.030 (2) | 0.040 (3) | −0.010 (2) | 0.013 (2) | −0.017 (2) |
O2G | 0.029 (2) | 0.050 (3) | 0.0237 (19) | −0.021 (2) | 0.0141 (18) | −0.0056 (18) |
O2H | 0.035 (2) | 0.061 (3) | 0.023 (2) | 0.004 (2) | 0.0184 (18) | 0.002 (2) |
O2I | 0.065 (4) | 0.033 (3) | 0.042 (3) | 0.024 (2) | 0.029 (3) | 0.025 (2) |
O2J | 0.027 (2) | 0.058 (3) | 0.026 (2) | 0.004 (2) | 0.0135 (19) | −0.009 (2) |
O2K | 0.077 (5) | 0.034 (3) | 0.063 (4) | 0.035 (3) | 0.026 (4) | 0.012 (3) |
O2L | 0.0198 (18) | 0.067 (4) | 0.035 (2) | −0.006 (2) | 0.0195 (18) | −0.004 (2) |
O3A | 0.0262 (19) | 0.032 (2) | 0.0231 (18) | −0.0005 (19) | 0.0000 (14) | 0.0040 (17) |
O3B | 0.045 (3) | 0.0187 (17) | 0.052 (3) | −0.003 (2) | 0.021 (2) | 0.0018 (19) |
O3C | 0.029 (2) | 0.039 (2) | 0.032 (2) | 0.0125 (19) | 0.0134 (19) | 0.0027 (18) |
O3D | 0.031 (3) | 0.048 (3) | 0.036 (2) | −0.022 (2) | 0.018 (2) | −0.011 (2) |
O3E | 0.041 (3) | 0.035 (2) | 0.0202 (19) | 0.0010 (19) | 0.0173 (18) | 0.0098 (16) |
O3F | 0.058 (3) | 0.039 (3) | 0.038 (3) | −0.014 (2) | 0.032 (3) | −0.019 (2) |
O4A | 0.0186 (17) | 0.047 (3) | 0.026 (2) | 0.0008 (18) | 0.0068 (15) | −0.0094 (18) |
O4B | 0.064 (4) | 0.021 (2) | 0.095 (5) | 0.002 (2) | 0.056 (4) | −0.010 (3) |
O4C | 0.024 (2) | 0.072 (4) | 0.0152 (17) | −0.015 (2) | 0.0059 (15) | 0.0023 (19) |
O4D | 0.070 (4) | 0.041 (3) | 0.023 (2) | −0.035 (3) | 0.011 (2) | 0.0027 (19) |
C1A | 0.061 (8) | 0.042 (6) | 0.045 (6) | −0.007 (5) | 0.024 (6) | 0.012 (5) |
C1B | 0.061 (8) | 0.038 (6) | 0.062 (7) | 0.006 (5) | 0.032 (7) | −0.005 (5) |
C1C | 0.035 (5) | 0.053 (7) | 0.044 (6) | 0.000 | 0.001 (4) | 0.000 |
C1D | 0.064 (7) | 0.058 (7) | 0.037 (5) | −0.003 (6) | 0.033 (5) | −0.002 (5) |
Si1A—O1C | 1.590 (4) | O2I—C1Di | 3.685 (5) |
Si1A—O1Ki | 1.593 (4) | O2J—Si1Giii | 1.604 (4) |
Si1A—O2Lii | 1.586 (4) | O2J—C1Civ | 3.866 (9) |
Si1A—O3A | 1.602 (4) | O2J—C1Diii | 4.446 (5) |
Si1A—C1Ai | 4.3384 (16) | O2K—Si1Hiv | 1.588 (5) |
Si1A—C1Biii | 4.3285 (16) | O2K—Si2Axvi | 1.574 (5) |
Si1B—O1A | 1.5945 (15) | O2K—C1Avi | 4.130 (8) |
Si1B—O1M | 1.595 (4) | O2K—C1C | 4.239 (7) |
Si1B—O2Biv | 1.602 (5) | O2L—Si1Axix | 1.586 (4) |
Si1B—O3F | 1.596 (4) | O2L—Si2Axvi | 1.597 (4) |
Si1B—C1A | 4.4372 (16) | O2L—C1Avi | 3.846 (5) |
Si1B—C1Civ | 4.406 (12) | O2L—C1Bxx | 4.044 (6) |
Si1C—O1B | 1.6017 (14) | O3A—C1Ai | 4.191 (5) |
Si1C—O1I | 1.588 (4) | O3A—C1Biii | 4.130 (5) |
Si1C—O2A | 1.607 (4) | O3B—Si1Fxvi | 1.586 (5) |
Si1C—O3E | 1.607 (4) | O3B—C1Cxiv | 4.185 (6) |
Si1C—C1Biii | 4.4034 (16) | O3B—C1D | 4.273 (5) |
Si1C—C1Civ | 4.281 (12) | O3C—Si1Dv | 1.592 (4) |
Si1D—O1E | 1.606 (4) | O3C—Si1Liv | 1.609 (4) |
Si1D—O1Kiv | 1.592 (4) | O3C—C1Avi | 4.195 (5) |
Si1D—O2E | 1.607 (5) | O3C—C1Dix | 4.375 (5) |
Si1D—O3Cv | 1.592 (4) | O3D—Si1Exxi | 1.587 (4) |
Si1D—C1Avi | 4.5149 (13) | O3D—C1Biii | 4.167 (5) |
Si1D—C1Dvi | 4.567 (2) | O3D—C1Di | 4.190 (5) |
Si1E—O1Cvii | 1.586 (4) | O3E—C1Biii | 4.188 (5) |
Si1E—O1Eviii | 1.600 (4) | O3E—C1Civ | 4.147 (11) |
Si1E—O2Dvii | 1.599 (5) | O3F—C1A | 4.055 (6) |
Si1E—O3Dvi | 1.587 (4) | O3F—C1Civ | 4.203 (11) |
Si1E—C1Bix | 4.4644 (13) | O4A—Si2Di | 1.600 (4) |
Si1E—C1Dx | 4.5298 (19) | O4A—Si3xxi | 1.608 (4) |
Si1F—O1D | 1.594 (5) | O4A—C1Ai | 3.884 (5) |
Si1F—O1G | 1.605 (5) | O4A—C1Biii | 3.651 (5) |
Si1F—O2Gxi | 1.614 (4) | O4A—C1Di | 4.436 (4) |
Si1F—O3Bi | 1.586 (5) | O4B—Si3xvi | 1.587 (5) |
Si1F—C1Cxi | 4.302 (5) | O4B—C1Avi | 3.568 (5) |
Si1F—C1Di | 4.4458 (18) | O4B—C1C | 4.220 (8) |
Si1G—O1Fxii | 1.599 (5) | O4B—C1Dvi | 4.150 (7) |
Si1G—O1L | 1.600 (4) | O4C—C1Ax | 4.388 (5) |
Si1G—O2Jxiii | 1.604 (4) | O4C—C1Bix | 3.933 (6) |
Si1G—O3B | 1.596 (5) | O4C—C1Ci | 3.653 (5) |
Si1G—C1Cxiv | 4.482 (5) | O4D—Si2Bvii | 1.600 (4) |
Si1G—C1D | 4.4931 (18) | O4D—C1Bix | 4.206 (6) |
Si1H—O1Dxii | 1.599 (5) | O4D—C1Ci | 4.130 (7) |
Si1H—O1H | 1.598 (4) | O4D—C1Dx | 3.615 (5) |
Si1H—O2Kiv | 1.588 (5) | C1A—Si3vii | 4.1866 (18) |
Si1H—O3F | 1.587 (4) | C1A—O2Biv | 3.883 (5) |
Si1H—C1A | 4.4297 (17) | C1A—O2Bxxi | 3.883 (5) |
Si1H—C1Civ | 4.493 (7) | C1A—O2Fxxii | 3.843 (6) |
Si1I—O1J | 1.605 (4) | C1A—O2Kxxi | 4.130 (8) |
Si1I—O1Lxv | 1.616 (5) | C1A—O2Kiv | 4.130 (8) |
Si1I—O2Cvii | 1.596 (5) | C1A—O2Liv | 3.846 (5) |
Si1I—O3E | 1.591 (4) | C1A—O2Lxxi | 3.846 (5) |
Si1I—C1Biii | 4.4827 (17) | C1A—O3Fxxii | 4.055 (6) |
Si1I—C1Civ | 4.697 (7) | C1A—O4Axxiii | 3.884 (5) |
Si1J—O1I | 1.614 (4) | C1A—O4Axvi | 3.884 (5) |
Si1J—O1Mi | 1.615 (4) | C1A—O4Bxxi | 3.568 (5) |
Si1J—O2H | 1.602 (4) | C1A—O4Biv | 3.568 (5) |
Si1J—O3A | 1.599 (4) | C1B—O1Cxiii | 4.068 (5) |
Si1J—C1Ai | 4.666 (2) | C1B—O1Cxxiv | 4.068 (5) |
Si1J—C1Biii | 4.541 (2) | C1B—O2Axiii | 3.778 (4) |
Si1K—O1G | 1.594 (5) | C1B—O2Axxiv | 3.778 (4) |
Si1K—O1J | 1.587 (4) | C1B—O2Cxi | 4.137 (6) |
Si1K—O2I | 1.603 (5) | C1B—O2Cxxv | 4.137 (6) |
Si1K—O3D | 1.601 (4) | C1B—O2Lxxvi | 4.044 (6) |
Si1K—C1Biii | 4.5278 (15) | C1B—O2Lxiv | 4.044 (6) |
Si1K—C1Di | 4.2344 (16) | C1B—O3Axxiv | 4.130 (5) |
Si1L—O1Fxii | 1.592 (5) | C1B—O3Axiii | 4.130 (5) |
Si1L—O1H | 1.596 (4) | C1B—O4Axiii | 3.651 (5) |
Si1L—O2F | 1.599 (5) | C1B—O4Axxiv | 3.651 (5) |
Si1L—O3Civ | 1.609 (4) | C1B—O4Cxi | 3.933 (6) |
Si1L—C1A | 4.3913 (15) | C1B—O4Cxxv | 3.933 (6) |
Si1L—C1D | 4.3767 (16) | C1B—O4Dxi | 4.206 (6) |
Si2A—O2C | 1.598 (5) | C1C—O1Aiv | 3.911 (15) |
Si2A—O2Ki | 1.574 (5) | C1C—O1Biv | 3.826 (15) |
Si2A—O2Li | 1.597 (4) | C1C—O2Aiv | 4.155 (11) |
Si2A—O4C | 1.591 (4) | C1C—O2Axxvii | 4.155 (11) |
Si2A—C1Ax | 4.362 (2) | C1C—O2Gxxviii | 3.668 (8) |
Si2A—C1Bix | 4.279 (2) | C1C—O2Jiv | 3.866 (9) |
Si2A—C1Ci | 4.3739 (13) | C1C—O2Jxxvii | 3.866 (9) |
Si2B—O2A | 1.592 (4) | C1C—O3Bxxix | 4.185 (6) |
Si2B—O2D | 1.592 (5) | C1C—O3Eiv | 4.147 (11) |
Si2B—O2J | 1.596 (4) | C1C—O3Exxvii | 4.147 (11) |
Si2B—O4Dvii | 1.600 (4) | C1C—O4Cxxx | 3.653 (5) |
Si2B—C1Biii | 4.3660 (13) | C1C—O4Cxvi | 3.653 (5) |
Si2B—C1Civ | 4.287 (8) | C1C—O4Dxvi | 4.130 (7) |
Si2B—C1Diii | 4.2748 (17) | C1C—O4Dxxx | 4.130 (7) |
Si2C—O2B | 1.594 (5) | C1D—O1Fxii | 4.047 (5) |
Si2C—O2E | 1.594 (5) | C1D—O1Fxxxi | 4.047 (5) |
Si2C—O2G | 1.582 (4) | C1D—O1Gxxiv | 4.086 (6) |
Si2C—O4B | 1.590 (5) | C1D—O2Dxiii | 3.985 (6) |
Si2C—C1Avi | 4.2193 (13) | C1D—O2Dxxii | 3.985 (6) |
Si2C—C1C | 4.317 (8) | C1D—O2Exxi | 3.889 (5) |
Si2C—C1Dvi | 4.3420 (17) | C1D—O2Exiv | 3.889 (5) |
Si2D—O2F | 1.594 (5) | C1D—O2Fxxxii | 3.976 (5) |
Si2D—O2Hxvi | 1.599 (4) | C1D—O2Ixvi | 3.685 (5) |
Si2D—O2Ixvi | 1.582 (4) | C1D—O2Ixxiv | 3.685 (5) |
Si2D—O4Axvi | 1.600 (4) | C1D—O4Bxiv | 4.150 (7) |
Si2D—C1A | 4.3082 (18) | C1D—O4Bxxi | 4.150 (7) |
Si2D—C1Bxvii | 4.3382 (18) | C1D—O4Dxi | 3.615 (5) |
Si2D—C1D | 4.2811 (12) | C1D—O4Dxxxiii | 3.615 (5) |
Si3—O4Avi | 1.608 (4) | C2A—C2Dxxvii | 1.51 (4) |
Si3—O4Bi | 1.587 (5) | C2A—C2Eiv | 1.30 (4) |
Si3—O4C | 1.602 (4) | C2A—C2Gxi | 1.32 (4) |
Si3—O4D | 1.583 (4) | C2A—C2K | 1.83 (6) |
Si3—C1Ax | 4.1866 (18) | C2B—C2Cxxxiv | 1.30 (5) |
Si3—C1Bix | 4.1613 (18) | C2B—C2Exxxv | 1.57 (5) |
Si3—C1Ci | 4.2136 (16) | C2B—C2Fxviii | 0.83 (4) |
Si3—C1Dx | 4.2939 (14) | C2B—C2J | 1.48 (4) |
O1A—Si1Bxviii | 1.5944 (15) | C2C—C2Bxxxvi | 1.30 (5) |
O1A—C1Civ | 3.911 (15) | C2C—C2Fxxxvii | 1.81 (5) |
O1B—Si1Cxviii | 1.6016 (14) | C2C—C2Ixxix | 1.49 (5) |
O1B—C1Civ | 3.826 (15) | C2C—C2Jxxxvi | 1.04 (5) |
O1C—Si1Evii | 1.586 (4) | C2C—C2Kxvii | 1.76 (6) |
O1C—C1Biii | 4.068 (5) | C2C—C2Lxvii | 1.76 (6) |
O1D—Si1Hxv | 1.599 (5) | C2D—C2Axxxi | 1.51 (4) |
O1D—C1Cxi | 4.348 (8) | C2D—C2Exviii | 2.29 (5) |
O1E—Si1Eviii | 1.600 (4) | C2D—C2Gxii | 1.12 (5) |
O1F—Si1Gxv | 1.599 (5) | C2D—C2H | 1.18 (6) |
O1F—Si1Lxv | 1.592 (5) | C2D—C2I | 1.39 (5) |
O1F—C1Dxv | 4.047 (5) | C2E—C2Aiv | 1.30 (4) |
O1G—C1Di | 4.086 (6) | C2E—C2Bxxxviii | 1.57 (5) |
O1H—C1A | 4.384 (5) | C2E—C2Dxviii | 2.29 (5) |
O1I—C1Biii | 4.486 (5) | C2E—C2Fxvi | 0.88 (5) |
O1J—C1Biii | 4.372 (5) | C2E—C2Kiv | 1.71 (6) |
O1K—Si1Axvi | 1.593 (4) | C2F—C2Bxviii | 0.83 (4) |
O1K—Si1Div | 1.592 (4) | C2F—C2Cxxxvii | 1.81 (5) |
O1K—C1A | 4.210 (5) | C2F—C2Ei | 0.88 (5) |
O1L—Si1Ixii | 1.616 (5) | C2F—C2Kvii | 1.67 (7) |
O1M—Si1Jxvi | 1.615 (4) | C2G—C2Axi | 1.32 (4) |
O1M—C1A | 4.654 (5) | C2G—C2Dxv | 1.12 (5) |
O2A—C1Biii | 3.778 (4) | C2G—C2Hxv | 1.99 (5) |
O2A—C1Civ | 4.155 (11) | C2G—C2Ixv | 1.59 (5) |
O2B—Si1Biv | 1.602 (5) | C2G—C2Kxi | 1.84 (6) |
O2B—C1Avi | 3.883 (5) | C2G—C2Lxi | 1.70 (5) |
O2B—C1C | 4.419 (12) | C2H—C2Gxii | 1.99 (5) |
O2C—Si1Ivii | 1.596 (5) | C2H—C2I | 0.94 (5) |
O2C—C1Bix | 4.137 (6) | C2H—C2Jxvi | 1.19 (6) |
O2C—C1Ci | 4.574 (6) | C2I—C2Cxxxix | 1.49 (5) |
O2D—Si1Evii | 1.599 (5) | C2I—C2Gxii | 1.59 (5) |
O2D—C1Biii | 4.429 (5) | C2I—C2Jxvi | 1.02 (5) |
O2D—C1Diii | 3.985 (6) | C2I—C2Kxxxi | 2.21 (6) |
O2E—C1Avi | 4.413 (4) | C2J—C2Cxxxiv | 1.04 (5) |
O2E—C1Dvi | 3.889 (5) | C2J—C2Hi | 1.19 (6) |
O2F—C1A | 3.843 (6) | C2J—C2Ii | 1.02 (5) |
O2F—C1D | 3.976 (5) | C2K—C2Cxl | 1.76 (6) |
O2G—Si1Fxi | 1.614 (4) | C2K—C2Eiv | 1.71 (7) |
O2G—C1C | 3.668 (8) | C2K—C2Fvii | 1.67 (7) |
O2G—C1Dvi | 4.258 (5) | C2K—C2Gxi | 1.84 (6) |
O2H—Si2Di | 1.599 (4) | C2K—C2Ixxvii | 2.21 (6) |
O2H—C1Ai | 4.450 (5) | C2K—C2L | 0.72 (6) |
O2H—C1Biii | 4.309 (6) | C2L—C2Cxl | 1.76 (6) |
O2I—Si2Di | 1.582 (4) | C2L—C2Gxi | 1.70 (5) |
O2I—C1Biii | 4.344 (6) | ||
O1C—Si1A—O1Ki | 110.1 (3) | O2Kiv—C1A—O2Kxxi | 180.0 |
O1C—Si1A—O2Lii | 110.9 (3) | O2Lxxi—C1A—Si3vii | 127.07 (7) |
O1C—Si1A—O3A | 109.0 (3) | O2Liv—C1A—Si3vii | 52.93 (7) |
O1C—Si1A—C1Ai | 172.4 (2) | O2Lxxi—C1A—O2F | 88.68 (10) |
O1C—Si1A—C1Biii | 69.97 (19) | O2Liv—C1A—O2F | 91.32 (10) |
O1Ki—Si1A—O3A | 109.0 (3) | O2Liv—C1A—O2Fxxii | 88.68 (10) |
O1Ki—Si1A—C1Ai | 74.74 (18) | O2Lxxi—C1A—O2Fxxii | 91.32 (10) |
O1Ki—Si1A—C1Biii | 178.61 (19) | O2Lxxi—C1A—O2Kiv | 142.75 (10) |
O2Lii—Si1A—O1Ki | 109.7 (3) | O2Liv—C1A—O2Kxxi | 142.75 (10) |
O2Lii—Si1A—O3A | 108.1 (3) | O2Lxxi—C1A—O2Kxxi | 37.25 (10) |
O2Lii—Si1A—C1Ai | 61.59 (19) | O2Liv—C1A—O2Kiv | 37.25 (10) |
O2Lii—Si1A—C1Biii | 69.1 (2) | O2Liv—C1A—O2Lxxi | 180.00 (8) |
O3A—Si1A—C1Ai | 74.04 (17) | O2Lxxi—C1A—O3F | 105.75 (10) |
O3A—Si1A—C1Biii | 72.17 (16) | O2Liv—C1A—O3Fxxii | 105.75 (10) |
C1Biii—Si1A—C1Ai | 105.09 (3) | O2Lxxi—C1A—O3Fxxii | 74.25 (10) |
O1A—Si1B—O2Biv | 109.8 (2) | O2Liv—C1A—O3F | 74.25 (10) |
O1A—Si1B—O3F | 109.9 (2) | O3F—C1A—Si3vii | 69.74 (8) |
O1A—Si1B—C1A | 162.9 (2) | O3Fxxii—C1A—Si3vii | 110.26 (8) |
O1A—Si1B—C1Civ | 61.7 (2) | O3Fxxii—C1A—O2Kiv | 142.84 (9) |
O1M—Si1B—O1A | 109.0 (3) | O3F—C1A—O2Kiv | 37.16 (9) |
O1M—Si1B—O2Biv | 107.1 (3) | O3Fxxii—C1A—O2Kxxi | 37.16 (9) |
O1M—Si1B—O3F | 110.4 (3) | O3F—C1A—O2Kxxi | 142.84 (9) |
O1M—Si1B—C1A | 87.70 (17) | O3Fxxii—C1A—O3F | 180.0 |
O1M—Si1B—C1Civ | 170.21 (19) | O4Axvi—C1A—Si3vii | 157.42 (6) |
O2Biv—Si1B—C1A | 59.68 (18) | O4Axxiii—C1A—Si3vii | 22.58 (6) |
O2Biv—Si1B—C1Civ | 80.0 (2) | O4Axvi—C1A—O2Biv | 99.85 (10) |
O3F—Si1B—O2Biv | 110.5 (3) | O4Axxiii—C1A—O2Bxxi | 99.85 (10) |
O3F—Si1B—C1A | 65.9 (2) | O4Axvi—C1A—O2Bxxi | 80.15 (10) |
O3F—Si1B—C1Civ | 72.21 (18) | O4Axxiii—C1A—O2Biv | 80.15 (10) |
C1Civ—Si1B—C1A | 101.84 (7) | O4Axvi—C1A—O2Fxxii | 140.96 (10) |
O1B—Si1C—O2A | 110.30 (19) | O4Axvi—C1A—O2F | 39.04 (10) |
O1B—Si1C—C1Biii | 165.8 (2) | O4Axxiii—C1A—O2F | 140.96 (10) |
O1B—Si1C—C1Civ | 62.8 (2) | O4Axxiii—C1A—O2Fxxii | 39.04 (10) |
O1I—Si1C—O1B | 109.1 (3) | O4Axxiii—C1A—O2Kiv | 70.63 (10) |
O1I—Si1C—O2A | 108.6 (3) | O4Axvi—C1A—O2Kiv | 109.37 (10) |
O1I—Si1C—O3E | 110.9 (2) | O4Axxiii—C1A—O2Kxxi | 109.37 (10) |
O1I—Si1C—C1Biii | 82.66 (17) | O4Axvi—C1A—O2Kxxi | 70.63 (10) |
O1I—Si1C—C1Civ | 171.89 (18) | O4Axxiii—C1A—O2Liv | 52.10 (10) |
O2A—Si1C—C1Biii | 57.06 (14) | O4Axvi—C1A—O2Lxxi | 52.10 (10) |
O2A—Si1C—C1Civ | 74.62 (18) | O4Axxiii—C1A—O2Lxxi | 127.90 (10) |
O3E—Si1C—O1B | 109.7 (2) | O4Axvi—C1A—O2Liv | 127.90 (10) |
O3E—Si1C—O2A | 108.2 (2) | O4Axxiii—C1A—O3F | 91.55 (10) |
O3E—Si1C—C1Biii | 71.74 (18) | O4Axvi—C1A—O3Fxxii | 91.55 (10) |
O3E—Si1C—C1Civ | 74.35 (17) | O4Axxiii—C1A—O3Fxxii | 88.45 (10) |
C1Civ—Si1C—C1Biii | 105.12 (7) | O4Axvi—C1A—O3F | 88.45 (10) |
O1E—Si1D—C1Avi | 176.27 (17) | O4Axxiii—C1A—O4Axvi | 180.0 |
O1E—Si1D—C1Dvi | 84.34 (16) | O4Biv—C1A—Si3vii | 21.79 (7) |
O1Kiv—Si1D—O1E | 108.8 (2) | O4Bxxi—C1A—Si3vii | 158.21 (7) |
O1Kiv—Si1D—O2E | 109.7 (3) | O4Bxxi—C1A—O2Bxxi | 39.98 (11) |
O1Kiv—Si1D—C1Avi | 68.80 (18) | O4Biv—C1A—O2Biv | 39.98 (11) |
O1Kiv—Si1D—C1Dvi | 163.5 (2) | O4Biv—C1A—O2Bxxi | 140.02 (11) |
O2E—Si1D—O1E | 107.6 (2) | O4Bxxi—C1A—O2Biv | 140.02 (11) |
O2E—Si1D—C1Avi | 76.07 (16) | O4Bxxi—C1A—O2F | 56.23 (14) |
O2E—Si1D—C1Dvi | 55.49 (19) | O4Biv—C1A—O2F | 123.77 (14) |
O3Cv—Si1D—O1E | 110.5 (2) | O4Biv—C1A—O2Fxxii | 56.23 (14) |
O3Cv—Si1D—O1Kiv | 109.8 (3) | O4Bxxi—C1A—O2Fxxii | 123.77 (14) |
O3Cv—Si1D—O2E | 110.3 (3) | O4Biv—C1A—O2Kiv | 63.49 (15) |
O3Cv—Si1D—C1Avi | 68.29 (17) | O4Bxxi—C1A—O2Kxxi | 63.49 (15) |
O3Cv—Si1D—C1Dvi | 73.00 (18) | O4Bxxi—C1A—O2Kiv | 116.51 (15) |
C1Avi—Si1D—C1Dvi | 98.50 (3) | O4Biv—C1A—O2Kxxi | 116.51 (15) |
O1Cvii—Si1E—O1Eviii | 109.5 (3) | O4Biv—C1A—O2Liv | 72.28 (11) |
O1Cvii—Si1E—O2Dvii | 109.2 (3) | O4Biv—C1A—O2Lxxi | 107.72 (11) |
O1Cvii—Si1E—O3Dvi | 109.4 (3) | O4Bxxi—C1A—O2Liv | 107.72 (11) |
O1Cvii—Si1E—C1Bix | 65.38 (19) | O4Bxxi—C1A—O2Lxxi | 72.28 (11) |
O1Cvii—Si1E—C1Dx | 164.2 (2) | O4Biv—C1A—O3F | 61.80 (14) |
O1Eviii—Si1E—O3Dvi | 110.8 (3) | O4Bxxi—C1A—O3F | 118.20 (14) |
O1Eviii—Si1E—C1Bix | 173.70 (16) | O4Biv—C1A—O3Fxxii | 118.20 (14) |
O1Eviii—Si1E—C1Dx | 85.67 (16) | O4Bxxi—C1A—O3Fxxii | 61.80 (14) |
O2Dvii—Si1E—O1Eviii | 107.2 (2) | O4Biv—C1A—O4Axxiii | 40.26 (10) |
O2Dvii—Si1E—O3Dvi | 110.8 (3) | O4Biv—C1A—O4Axvi | 139.74 (10) |
O2Dvii—Si1E—C1Bix | 78.39 (18) | O4Bxxi—C1A—O4Axvi | 40.26 (10) |
O2Dvii—Si1E—C1Dx | 60.2 (2) | O4Bxxi—C1A—O4Axxiii | 139.74 (10) |
O3Dvi—Si1E—C1Bix | 68.98 (18) | O4Biv—C1A—O4Bxxi | 180.00 (13) |
O3Dvi—Si1E—C1Dx | 67.57 (18) | O1Cxxiv—C1B—O1Cxiii | 180.0 |
C1Bix—Si1E—C1Dx | 99.80 (3) | O1Cxxiv—C1B—O2Cxi | 55.96 (10) |
O1D—Si1F—O2Gxi | 109.0 (3) | O1Cxiii—C1B—O2Cxxv | 55.96 (10) |
O1D—Si1F—C1Cxi | 81.0 (2) | O1Cxiii—C1B—O2Cxi | 124.04 (10) |
O1D—Si1F—C1Di | 175.0 (2) | O1Cxxiv—C1B—O2Cxxv | 124.04 (10) |
O1G—Si1F—O1D | 108.4 (3) | O1Cxxiv—C1B—O3Axiii | 143.06 (9) |
O1G—Si1F—O2Gxi | 108.9 (2) | O1Cxiii—C1B—O3Axxiv | 143.06 (9) |
O1G—Si1F—C1Cxi | 165.26 (19) | O1Cxxiv—C1B—O3Axxiv | 36.94 (9) |
O1G—Si1F—C1Di | 66.7 (2) | O1Cxiii—C1B—O3Axiii | 36.94 (9) |
O2Gxi—Si1F—C1Cxi | 56.53 (18) | O1Cxxiv—C1B—O4Dxi | 110.18 (9) |
O2Gxi—Si1F—C1Di | 72.83 (19) | O1Cxiii—C1B—O4Dxi | 69.82 (9) |
O3Bi—Si1F—O1D | 109.7 (3) | O2Axiii—C1B—O1Cxiii | 58.97 (11) |
O3Bi—Si1F—O1G | 110.9 (3) | O2Axxiv—C1B—O1Cxxiv | 58.97 (11) |
O3Bi—Si1F—O2Gxi | 109.8 (3) | O2Axiii—C1B—O1Cxxiv | 121.03 (11) |
O3Bi—Si1F—C1Cxi | 75.1 (3) | O2Axxiv—C1B—O1Cxiii | 121.03 (11) |
O3Bi—Si1F—C1Di | 73.4 (2) | O2Axxiv—C1B—O2Axiii | 180.0 |
C1Cxi—Si1F—C1Di | 103.71 (8) | O2Axxiv—C1B—O2Cxxv | 65.45 (10) |
O1Fxii—Si1G—C1Cxiv | 162.56 (18) | O2Axiii—C1B—O2Cxi | 65.45 (10) |
O1Fxii—Si1G—C1D | 63.71 (18) | O2Axiii—C1B—O2Cxxv | 114.55 (10) |
O1L—Si1G—O1Fxii | 108.5 (3) | O2Axxiv—C1B—O2Cxi | 114.55 (10) |
O1L—Si1G—C1Cxiv | 87.94 (18) | O2Axiii—C1B—O2Lxxvi | 90.17 (10) |
O1L—Si1G—C1D | 171.83 (17) | O2Axxiv—C1B—O2Lxiv | 90.17 (10) |
O2Jxiii—Si1G—O1Fxii | 110.0 (3) | O2Axiii—C1B—O2Lxiv | 89.83 (9) |
O2Jxiii—Si1G—O1L | 107.8 (2) | O2Axxiv—C1B—O2Lxxvi | 89.83 (10) |
O2Jxiii—Si1G—O3B | 111.2 (3) | O2Axiii—C1B—O3Axiii | 59.35 (10) |
O2Jxiii—Si1G—C1Cxiv | 57.6 (2) | O2Axiii—C1B—O3Axxiv | 120.65 (10) |
O2Jxiii—Si1G—C1D | 78.03 (19) | O2Axxiv—C1B—O3Axxiv | 59.35 (10) |
O3B—Si1G—O1Fxii | 109.0 (3) | O2Axxiv—C1B—O3Axiii | 120.65 (10) |
O3B—Si1G—O1L | 110.3 (3) | O2Axxiv—C1B—O4Cxxv | 53.48 (10) |
O3B—Si1G—C1Cxiv | 69.0 (3) | O2Axiii—C1B—O4Cxxv | 126.52 (10) |
O3B—Si1G—C1D | 71.8 (2) | O2Axxiv—C1B—O4Cxi | 126.52 (10) |
C1Cxiv—Si1G—C1D | 100.10 (7) | O2Axiii—C1B—O4Cxi | 53.48 (10) |
O1Dxii—Si1H—C1A | 175.0 (2) | O2Axiii—C1B—O4Dxi | 37.79 (9) |
O1Dxii—Si1H—C1Civ | 74.5 (2) | O2Axxiv—C1B—O4Dxi | 142.21 (9) |
O1H—Si1H—O1Dxii | 107.0 (3) | O2Cxi—C1B—O2Cxxv | 180.0 |
O1H—Si1H—C1A | 78.0 (2) | O2Cxi—C1B—O3Axxiv | 73.18 (9) |
O1H—Si1H—C1Civ | 178.5 (2) | O2Cxxv—C1B—O3Axiii | 73.18 (9) |
O2Kiv—Si1H—O1Dxii | 109.9 (4) | O2Cxxv—C1B—O3Axxiv | 106.82 (9) |
O2Kiv—Si1H—O1H | 108.7 (3) | O2Cxi—C1B—O3Axiii | 106.82 (9) |
O2Kiv—Si1H—C1A | 68.8 (3) | O2Cxxv—C1B—O4Dxi | 109.14 (10) |
O2Kiv—Si1H—C1Civ | 70.6 (3) | O2Cxi—C1B—O4Dxi | 70.86 (10) |
O3F—Si1H—O1Dxii | 110.6 (3) | O2Lxiv—C1B—O1Cxxiv | 37.61 (9) |
O3F—Si1H—O1H | 110.0 (3) | O2Lxiv—C1B—O1Cxiii | 142.39 (9) |
O3F—Si1H—O2Kiv | 110.6 (3) | O2Lxxvi—C1B—O1Cxiii | 37.61 (9) |
O3F—Si1H—C1A | 66.1 (2) | O2Lxxvi—C1B—O1Cxxiv | 142.39 (9) |
O3F—Si1H—C1Civ | 69.3 (2) | O2Lxxvi—C1B—O2Cxxv | 37.18 (9) |
C1A—Si1H—C1Civ | 100.58 (4) | O2Lxxvi—C1B—O2Cxi | 142.82 (9) |
O1J—Si1I—O1Lxv | 106.8 (3) | O2Lxiv—C1B—O2Cxxv | 142.82 (9) |
O1J—Si1I—C1Biii | 75.7 (2) | O2Lxiv—C1B—O2Cxi | 37.18 (9) |
O1J—Si1I—C1Civ | 169.7 (2) | O2Lxiv—C1B—O2Lxxvi | 180.0 |
O1Lxv—Si1I—C1Biii | 177.17 (18) | O2Lxxvi—C1B—O3Axiii | 36.80 (8) |
O1Lxv—Si1I—C1Civ | 80.35 (16) | O2Lxiv—C1B—O3Axiii | 143.20 (8) |
O2Cvii—Si1I—O1J | 107.7 (3) | O2Lxxvi—C1B—O3Axxiv | 143.20 (8) |
O2Cvii—Si1I—O1Lxv | 110.4 (3) | O2Lxiv—C1B—O3Axxiv | 36.80 (8) |
O2Cvii—Si1I—O3E | 111.2 (3) | O2Lxxvi—C1B—O4Dxi | 107.40 (9) |
O2Cvii—Si1I—C1Biii | 67.3 (2) | O2Lxiv—C1B—O4Dxi | 72.60 (9) |
O2Cvii—Si1I—C1Civ | 75.7 (2) | O3Axxiv—C1B—O3Axiii | 180.00 (7) |
O3E—Si1I—O1J | 109.6 (3) | O3Axiii—C1B—O4Dxi | 90.09 (9) |
O3E—Si1I—O1Lxv | 110.9 (2) | O3Axxiv—C1B—O4Dxi | 89.91 (9) |
O3E—Si1I—C1Biii | 69.10 (18) | O4Axiii—C1B—O1Cxiii | 83.55 (10) |
O3E—Si1I—C1Civ | 60.3 (2) | O4Axxiv—C1B—O1Cxxiv | 83.55 (10) |
C1Biii—Si1I—C1Civ | 97.36 (4) | O4Axiii—C1B—O1Cxxiv | 96.45 (10) |
O1I—Si1J—C1Ai | 173.76 (18) | O4Axxiv—C1B—O1Cxiii | 96.45 (10) |
O1I—Si1J—C1Biii | 77.77 (17) | O4Axxiv—C1B—O2Axiii | 74.87 (9) |
O1Mi—Si1J—O1I | 105.8 (2) | O4Axxiv—C1B—O2Axxiv | 105.13 (10) |
O1Mi—Si1J—C1Ai | 79.63 (17) | O4Axiii—C1B—O2Axiii | 105.13 (10) |
O1Mi—Si1J—C1Biii | 175.99 (18) | O4Axiii—C1B—O2Axxiv | 74.87 (9) |
O2H—Si1J—O1I | 108.1 (3) | O4Axxiv—C1B—O2Cxi | 74.43 (10) |
O2H—Si1J—O1Mi | 108.6 (3) | O4Axiii—C1B—O2Cxi | 105.57 (10) |
O2H—Si1J—C1Ai | 72.33 (19) | O4Axxiv—C1B—O2Cxxv | 105.57 (10) |
O2H—Si1J—C1Biii | 71.5 (2) | O4Axiii—C1B—O2Cxxv | 74.43 (10) |
O3A—Si1J—O1I | 111.5 (3) | O4Axxiv—C1B—O2Lxxvi | 127.95 (10) |
O3A—Si1J—O1Mi | 111.6 (2) | O4Axiii—C1B—O2Lxiv | 127.95 (10) |
O3A—Si1J—O2H | 111.0 (3) | O4Axxiv—C1B—O2Lxiv | 52.05 (10) |
O3A—Si1J—C1Ai | 63.06 (17) | O4Axiii—C1B—O2Lxxvi | 52.05 (10) |
O3A—Si1J—C1Biii | 65.05 (16) | O4Axxiv—C1B—O3Axiii | 126.23 (10) |
C1Biii—Si1J—C1Ai | 96.69 (3) | O4Axiii—C1B—O3Axiii | 53.77 (10) |
O1G—Si1K—C1Biii | 175.20 (19) | O4Axxiv—C1B—O3Axxiv | 53.77 (10) |
O1G—Si1K—C1Di | 73.8 (2) | O4Axiii—C1B—O3Axxiv | 126.23 (10) |
O1J—Si1K—O1G | 109.3 (3) | O4Axxiv—C1B—O4Axiii | 180.0 |
O1J—Si1K—O2I | 109.4 (3) | O4Axxiv—C1B—O4Cxxv | 140.06 (10) |
O1J—Si1K—C1Biii | 74.2 (2) | O4Axiii—C1B—O4Cxxv | 39.94 (10) |
O1J—Si1K—C1Di | 168.34 (19) | O4Axxiv—C1B—O4Cxi | 39.94 (10) |
O2I—Si1K—O1G | 108.1 (3) | O4Axiii—C1B—O4Cxi | 140.06 (10) |
O2I—Si1K—C1Biii | 73.2 (2) | O4Axxiv—C1B—O4Dxi | 38.02 (9) |
O2I—Si1K—C1Di | 59.34 (16) | O4Axiii—C1B—O4Dxi | 141.98 (9) |
O3D—Si1K—O1G | 108.5 (3) | O4Cxi—C1B—O1Cxiii | 105.06 (9) |
O3D—Si1K—O1J | 111.2 (3) | O4Cxi—C1B—O1Cxxiv | 74.94 (9) |
O3D—Si1K—O2I | 110.3 (3) | O4Cxxv—C1B—O1Cxiii | 74.94 (9) |
O3D—Si1K—C1Biii | 66.86 (18) | O4Cxxv—C1B—O1Cxxiv | 105.06 (9) |
O3D—Si1K—C1Di | 77.47 (18) | O4Cxi—C1B—O2Cxxv | 142.62 (9) |
C1Di—Si1K—C1Biii | 103.43 (3) | O4Cxi—C1B—O2Cxi | 37.38 (9) |
O1Fxii—Si1L—O1H | 108.8 (3) | O4Cxxv—C1B—O2Cxi | 142.62 (9) |
O1Fxii—Si1L—O2F | 110.5 (3) | O4Cxxv—C1B—O2Cxxv | 37.38 (9) |
O1Fxii—Si1L—O3Civ | 109.7 (2) | O4Cxi—C1B—O2Lxxvi | 141.84 (8) |
O1Fxii—Si1L—C1A | 169.6 (2) | O4Cxi—C1B—O2Lxiv | 38.16 (8) |
O1Fxii—Si1L—C1D | 67.60 (19) | O4Cxxv—C1B—O2Lxiv | 141.84 (8) |
O1H—Si1L—O2F | 109.8 (3) | O4Cxxv—C1B—O2Lxxvi | 38.16 (8) |
O1H—Si1L—O3Civ | 110.0 (3) | O4Cxxv—C1B—O3Axxiv | 112.34 (9) |
O1H—Si1L—C1A | 79.27 (19) | O4Cxi—C1B—O3Axiii | 112.34 (9) |
O1H—Si1L—C1D | 170.6 (2) | O4Cxxv—C1B—O3Axiii | 67.66 (9) |
O2F—Si1L—O3Civ | 108.1 (3) | O4Cxi—C1B—O3Axxiv | 67.66 (9) |
O2F—Si1L—C1A | 59.8 (2) | O4Cxi—C1B—O4Cxxv | 180.0 |
O2F—Si1L—C1D | 65.04 (19) | O4Cxxv—C1B—O4Dxi | 142.79 (9) |
O3Civ—Si1L—C1A | 72.41 (17) | O4Cxi—C1B—O4Dxi | 37.21 (9) |
O3Civ—Si1L—C1D | 79.33 (18) | O1Aiv—C1C—O2Axxvii | 141.74 (12) |
C1D—Si1L—C1A | 103.38 (3) | O1Aiv—C1C—O2Aiv | 141.74 (13) |
O2C—Si2A—O4C | 108.8 (3) | O1Aiv—C1C—O3Bxxix | 90.53 (18) |
O2C—Si2A—C1Ax | 169.08 (17) | O1Aiv—C1C—O3Exxvii | 141.85 (12) |
O2C—Si2A—C1Bix | 74.1 (2) | O1Aiv—C1C—O3Eiv | 141.85 (12) |
O2C—Si2A—C1Ci | 86.9 (2) | O1Aiv—C1C—O4Dxxx | 105.75 (19) |
O2Ki—Si2A—O2C | 109.4 (4) | O1Aiv—C1C—O4Dxvi | 105.75 (19) |
O2Ki—Si2A—O2Li | 107.8 (3) | O1Biv—C1C—O1Aiv | 180.0 |
O2Ki—Si2A—O4C | 111.4 (3) | O1Biv—C1C—O2Axxvii | 38.26 (12) |
O2Ki—Si2A—C1Ax | 71.1 (3) | O1Biv—C1C—O2Aiv | 38.26 (12) |
O2Ki—Si2A—C1Bix | 176.5 (3) | O1Biv—C1C—O2Jiv | 56.15 (17) |
O2Ki—Si2A—C1Ci | 74.7 (3) | O1Biv—C1C—O2Jxxvii | 56.15 (17) |
O2Li—Si2A—O2C | 109.5 (3) | O1Biv—C1C—O3Bxxix | 89.47 (18) |
O2Li—Si2A—O4C | 109.9 (2) | O1Biv—C1C—O3Eiv | 38.15 (12) |
O2Li—Si2A—C1Ax | 60.85 (19) | O1Biv—C1C—O3Exxvii | 38.15 (12) |
O2Li—Si2A—C1Bix | 70.7 (2) | O1Biv—C1C—O4Dxxx | 74.25 (19) |
O2Li—Si2A—C1Ci | 160.7 (2) | O1Biv—C1C—O4Dxvi | 74.25 (19) |
O4C—Si2A—C1Ax | 80.45 (19) | O2Axxvii—C1C—O2Aiv | 76.5 (2) |
O4C—Si2A—C1Bix | 66.7 (2) | O2Axxvii—C1C—O3Bxxix | 75.10 (14) |
O4C—Si2A—C1Ci | 53.29 (17) | O2Aiv—C1C—O3Bxxix | 104.05 (19) |
C1Ax—Si2A—C1Ci | 103.59 (14) | O2Gxxviii—C1C—O1Aiv | 59.98 (19) |
C1Bix—Si2A—C1Ax | 105.53 (3) | O2G—C1C—O1Aiv | 59.98 (19) |
C1Bix—Si2A—C1Ci | 105.67 (14) | O2G—C1C—O1Biv | 120.02 (19) |
O2A—Si2B—C1Biii | 58.23 (15) | O2Gxxviii—C1C—O1Biv | 120.02 (19) |
O2A—Si2B—C1Civ | 74.5 (2) | O2Gxxviii—C1C—O2Aiv | 142.29 (18) |
O2A—Si2B—C1Diii | 162.58 (16) | O2G—C1C—O2Aiv | 89.69 (12) |
O2D—Si2B—O2A | 111.6 (3) | O2G—C1C—O2Axxvii | 142.29 (18) |
O2D—Si2B—O2J | 108.8 (3) | O2Gxxviii—C1C—O2Axxvii | 89.69 (12) |
O2D—Si2B—C1Biii | 81.81 (17) | O2Gxxviii—C1C—O2G | 120.0 (4) |
O2D—Si2B—C1Civ | 172.34 (18) | O2Gxxviii—C1C—O2Jxxvii | 64.01 (12) |
O2D—Si2B—C1Diii | 68.8 (2) | O2G—C1C—O2Jxxvii | 174.5 (3) |
O2J—Si2B—O2A | 109.9 (2) | O2G—C1C—O2Jiv | 64.01 (12) |
O2J—Si2B—C1Biii | 167.11 (18) | O2Gxxviii—C1C—O2Jiv | 174.5 (3) |
O2J—Si2B—C1Civ | 64.07 (19) | O2Gxxviii—C1C—O3Bxxix | 38.24 (9) |
O2J—Si2B—C1Diii | 85.59 (18) | O2G—C1C—O3Bxxix | 142.6 (3) |
O4Dvii—Si2B—O2A | 110.1 (2) | O2G—C1C—O3Eiv | 120.89 (15) |
O4Dvii—Si2B—O2D | 107.6 (3) | O2G—C1C—O3Exxvii | 105.87 (12) |
O4Dvii—Si2B—O2J | 108.8 (3) | O2Gxxviii—C1C—O3Eiv | 105.87 (12) |
O4Dvii—Si2B—C1Biii | 73.7 (2) | O2Gxxviii—C1C—O3Exxvii | 120.89 (15) |
O4Dvii—Si2B—C1Civ | 73.6 (3) | O2Gxxviii—C1C—O4Dxxx | 55.33 (11) |
O4Dvii—Si2B—C1Diii | 55.41 (17) | O2G—C1C—O4Dxvi | 55.33 (11) |
C1Civ—Si2B—C1Biii | 105.67 (3) | O2G—C1C—O4Dxxx | 147.19 (17) |
C1Diii—Si2B—C1Biii | 105.54 (3) | O2Gxxviii—C1C—O4Dxvi | 147.19 (17) |
C1Diii—Si2B—C1Civ | 106.95 (14) | O2Jxxvii—C1C—O1Aiv | 123.85 (17) |
O2B—Si2C—O2E | 109.3 (3) | O2Jiv—C1C—O1Aiv | 123.85 (17) |
O2B—Si2C—O2G | 111.4 (3) | O2Jxxvii—C1C—O2Aiv | 85.2 (2) |
O2B—Si2C—O4B | 107.3 (3) | O2Jiv—C1C—O2Axxvii | 85.2 (2) |
O2B—Si2C—C1Avi | 66.96 (19) | O2Jxxvii—C1C—O2Axxvii | 37.76 (12) |
O2B—Si2C—C1C | 83.1 (2) | O2Jiv—C1C—O2Aiv | 37.76 (12) |
O2B—Si2C—C1Dvi | 171.1 (2) | O2Jxxvii—C1C—O2Jiv | 112.3 (3) |
O2E—Si2C—C1Avi | 86.29 (17) | O2Jiv—C1C—O3Bxxix | 141.0 (3) |
O2E—Si2C—C1C | 164.88 (18) | O2Jxxvii—C1C—O3Bxxix | 38.03 (10) |
O2E—Si2C—C1Dvi | 63.06 (18) | O2Jxxvii—C1C—O3Eiv | 53.64 (16) |
O2G—Si2C—O2E | 110.2 (2) | O2Jiv—C1C—O3Exxvii | 53.64 (16) |
O2G—Si2C—C1Avi | 162.20 (17) | O2Jiv—C1C—O3Eiv | 73.6 (2) |
O2G—Si2C—C1C | 55.75 (16) | O2Jxxvii—C1C—O3Exxvii | 73.6 (2) |
O2G—Si2C—C1Dvi | 76.4 (2) | O2Jxxvii—C1C—O4Dxxx | 37.75 (10) |
O4B—Si2C—O2E | 107.4 (3) | O2Jiv—C1C—O4Dxxx | 119.2 (3) |
O4B—Si2C—O2G | 111.1 (3) | O2Jxxvii—C1C—O4Dxvi | 119.2 (3) |
O4B—Si2C—C1Avi | 55.51 (19) | O2Jiv—C1C—O4Dxvi | 37.75 (10) |
O4B—Si2C—C1C | 75.9 (3) | O3Eiv—C1C—O2Axxvii | 64.42 (19) |
O4B—Si2C—C1Dvi | 72.5 (3) | O3Exxvii—C1C—O2Aiv | 64.42 (19) |
C1Avi—Si2C—C1C | 107.05 (3) | O3Exxvii—C1C—O2Axxvii | 36.56 (12) |
C1Avi—Si2C—C1Dvi | 106.95 (3) | O3Eiv—C1C—O2Aiv | 36.56 (12) |
C1C—Si2C—C1Dvi | 105.23 (13) | O3Exxvii—C1C—O3Bxxix | 111.4 (2) |
O2F—Si2D—O2Hxvi | 111.4 (3) | O3Eiv—C1C—O3Bxxix | 67.66 (12) |
O2F—Si2D—O4Axvi | 107.9 (3) | O3Exxvii—C1C—O3Eiv | 76.3 (2) |
O2F—Si2D—C1A | 62.5 (2) | O4Cxxx—C1C—O1Aiv | 94.8 (2) |
O2F—Si2D—C1Bxvii | 162.4 (2) | O4Cxvi—C1C—O1Aiv | 94.8 (2) |
O2F—Si2D—C1D | 68.23 (19) | O4Cxvi—C1C—O1Biv | 85.2 (2) |
O2Hxvi—Si2D—C1A | 84.50 (19) | O4Cxxx—C1C—O1Biv | 85.2 (2) |
O2Hxvi—Si2D—C1Bxvii | 78.3 (2) | O4Cxvi—C1C—O2Aiv | 52.33 (14) |
O2Hxvi—Si2D—C1D | 166.3 (2) | O4Cxvi—C1C—O2Axxvii | 118.6 (3) |
O2Ixvi—Si2D—O2F | 108.6 (3) | O4Cxxx—C1C—O2Axxvii | 52.33 (14) |
O2Ixvi—Si2D—O2Hxvi | 111.5 (3) | O4Cxxx—C1C—O2Aiv | 118.6 (3) |
O2Ixvi—Si2D—O4Axvi | 109.7 (3) | O4Cxvi—C1C—O2Gxxviii | 109.75 (15) |
O2Ixvi—Si2D—C1A | 164.00 (18) | O4Cxxx—C1C—O2Gxxviii | 75.29 (12) |
O2Ixvi—Si2D—C1Bxvii | 79.7 (2) | O4Cxvi—C1C—O2G | 75.29 (12) |
O2Ixvi—Si2D—C1D | 57.63 (17) | O4Cxxx—C1C—O2G | 109.75 (15) |
O4Axvi—Si2D—O2Hxvi | 107.7 (2) | O4Cxxx—C1C—O2Jiv | 100.02 (18) |
O4Axvi—Si2D—C1A | 64.03 (19) | O4Cxvi—C1C—O2Jxxvii | 100.02 (18) |
O4Axvi—Si2D—C1Bxvii | 54.54 (17) | O4Cxxx—C1C—O2Jxxvii | 74.49 (14) |
O4Axvi—Si2D—C1D | 84.93 (15) | O4Cxvi—C1C—O2Jiv | 74.49 (14) |
C1A—Si2D—C1Bxvii | 105.44 (3) | O4Cxxx—C1C—O3Bxxix | 94.04 (10) |
C1D—Si2D—C1A | 106.45 (3) | O4Cxvi—C1C—O3Bxxix | 85.87 (10) |
C1D—Si2D—C1Bxvii | 105.92 (3) | O4Cxxx—C1C—O3Eiv | 116.7 (3) |
O4Avi—Si3—C1Ax | 68.07 (19) | O4Cxvi—C1C—O3Exxvii | 116.7 (3) |
O4Avi—Si3—C1Bix | 60.57 (17) | O4Cxxx—C1C—O3Exxvii | 54.40 (15) |
O4Avi—Si3—C1Ci | 167.24 (17) | O4Cxvi—C1C—O3Eiv | 54.40 (15) |
O4Avi—Si3—C1Dx | 84.40 (16) | O4Cxxx—C1C—O4Cxvi | 170.4 (4) |
O4Bi—Si3—O4Avi | 107.8 (3) | O4Cxxx—C1C—O4Dxxx | 38.57 (9) |
O4Bi—Si3—O4C | 110.2 (4) | O4Cxvi—C1C—O4Dxxx | 137.4 (2) |
O4Bi—Si3—O4D | 110.4 (3) | O4Cxvi—C1C—O4Dxvi | 38.57 (9) |
O4Bi—Si3—C1Ax | 56.61 (18) | O4Cxxx—C1C—O4Dxvi | 137.4 (2) |
O4Bi—Si3—C1Bix | 166.90 (19) | O4Dxvi—C1C—O2Aiv | 36.82 (11) |
O4Bi—Si3—C1Ci | 79.4 (3) | O4Dxxx—C1C—O2Aiv | 112.0 (3) |
O4Bi—Si3—C1Dx | 74.1 (3) | O4Dxxx—C1C—O2Axxvii | 36.82 (11) |
O4C—Si3—O4Avi | 108.4 (2) | O4Dxvi—C1C—O2Axxvii | 112.0 (3) |
O4C—Si3—O4D | 110.0 (3) | O4Dxxx—C1C—O3Bxxix | 57.68 (10) |
O4C—Si3—C1Ax | 86.41 (18) | O4Dxvi—C1C—O3Bxxix | 121.99 (13) |
O4C—Si3—C1Bix | 70.6 (2) | O4Dxxx—C1C—O3Exxvii | 65.80 (16) |
O4C—Si3—C1Ci | 58.89 (16) | O4Dxvi—C1C—O3Eiv | 65.80 (16) |
O4C—Si3—C1Dx | 163.54 (16) | O4Dxxx—C1C—O3Eiv | 89.0 (2) |
O4D—Si3—O4Avi | 109.9 (3) | O4Dxvi—C1C—O3Exxvii | 89.0 (2) |
O4D—Si3—C1Ax | 162.68 (19) | O4Dxxx—C1C—O4Dxvi | 148.5 (4) |
O4D—Si3—C1Bix | 80.7 (2) | O1Fxxxi—C1D—O1Fxii | 180.0 |
O4D—Si3—C1Ci | 76.1 (3) | O1Fxii—C1D—O1Gxxiv | 115.36 (11) |
O4D—Si3—C1Dx | 54.61 (18) | O1Fxxxi—C1D—O1Gxxiv | 64.64 (10) |
C1Ax—Si3—C1Ci | 109.61 (16) | O1Fxii—C1D—O4Bxxi | 84.42 (10) |
C1Ax—Si3—C1Dx | 108.43 (3) | O1Fxxxi—C1D—O4Bxiv | 84.42 (10) |
C1Bix—Si3—C1Ax | 111.01 (3) | O1Fxii—C1D—O4Bxiv | 95.58 (10) |
C1Bix—Si3—C1Ci | 110.85 (16) | O1Fxxxi—C1D—O4Bxxi | 95.58 (10) |
C1Bix—Si3—C1Dx | 108.91 (3) | O2Dxiii—C1D—O1Fxxxi | 125.66 (10) |
C1Ci—Si3—C1Dx | 107.94 (2) | O2Dxiii—C1D—O1Fxii | 54.34 (10) |
Si1Bxviii—O1A—Si1B | 165.5 (5) | O2Dxxii—C1D—O1Fxxxi | 54.34 (10) |
Si1B—O1A—C1Civ | 97.3 (2) | O2Dxxii—C1D—O1Fxii | 125.66 (10) |
Si1Bxviii—O1A—C1Civ | 97.3 (2) | O2Dxiii—C1D—O1Gxxiv | 73.47 (10) |
Si1Cxviii—O1B—Si1C | 169.4 (5) | O2Dxxii—C1D—O1Gxxiv | 106.53 (10) |
Si1C—O1B—C1Civ | 95.3 (2) | O2Dxxii—C1D—O2Dxiii | 180.0 |
Si1Cxviii—O1B—C1Civ | 95.3 (2) | O2Dxiii—C1D—O4Bxxi | 102.39 (10) |
Si1A—O1C—Si1Evii | 175.8 (5) | O2Dxxii—C1D—O4Bxxi | 77.61 (10) |
Si1A—O1C—C1Biii | 88.49 (19) | O2Dxxii—C1D—O4Bxiv | 102.39 (10) |
Si1Evii—O1C—C1Biii | 93.9 (2) | O2Dxiii—C1D—O4Bxiv | 77.61 (10) |
Si1F—O1D—Si1Hxv | 162.4 (4) | O2Exxi—C1D—O1Fxxxi | 107.60 (10) |
Si1F—O1D—C1Cxi | 77.8 (2) | O2Exiv—C1D—O1Fxxxi | 72.40 (10) |
Si1Hxv—O1D—C1Cxi | 84.8 (2) | O2Exxi—C1D—O1Fxii | 72.40 (10) |
Si1Eviii—O1E—Si1D | 150.2 (3) | O2Exiv—C1D—O1Fxii | 107.60 (10) |
Si1Gxv—O1F—C1Dxv | 95.54 (19) | O2Exiv—C1D—O1Gxxiv | 127.83 (10) |
Si1Lxv—O1F—Si1Gxv | 172.8 (3) | O2Exxi—C1D—O1Gxxiv | 52.17 (10) |
Si1Lxv—O1F—C1Dxv | 91.1 (2) | O2Exiv—C1D—O2Dxiii | 113.17 (10) |
Si1F—O1G—Si1K | 163.9 (4) | O2Exiv—C1D—O2Dxxii | 66.83 (10) |
Si1F—O1G—C1Di | 92.1 (2) | O2Exxi—C1D—O2Dxxii | 113.17 (10) |
Si1K—O1G—C1Di | 84.2 (2) | O2Exxi—C1D—O2Dxiii | 66.83 (10) |
Si1H—O1H—Si1L | 159.9 (4) | O2Exiv—C1D—O2Exxi | 180.0 |
Si1H—O1H—C1A | 81.2 (2) | O2Exxi—C1D—O4Bxiv | 142.94 (10) |
Si1L—O1H—C1A | 79.8 (2) | O2Exiv—C1D—O4Bxiv | 37.06 (9) |
Si1C—O1I—Si1J | 158.4 (3) | O2Exxi—C1D—O4Bxxi | 37.06 (9) |
Si1C—O1I—C1Biii | 76.79 (17) | O2Exiv—C1D—O4Bxxi | 142.94 (10) |
Si1J—O1I—C1Biii | 81.65 (17) | O2Fxxxii—C1D—O1Fxii | 141.88 (10) |
Si1I—O1J—C1Biii | 83.5 (2) | O2Fxxxii—C1D—O1Fxxxi | 38.12 (10) |
Si1K—O1J—Si1I | 160.1 (4) | O2F—C1D—O1Fxxxi | 141.88 (10) |
Si1K—O1J—C1Biii | 85.3 (2) | O2F—C1D—O1Fxii | 38.12 (10) |
Si1Axvi—O1K—Si1Div | 166.3 (4) | O2Fxxxii—C1D—O1Gxxiv | 69.04 (11) |
Si1Axvi—O1K—C1A | 83.85 (17) | O2F—C1D—O1Gxxiv | 110.96 (11) |
Si1Div—O1K—C1A | 90.5 (2) | O2F—C1D—O2Dxxii | 95.81 (10) |
Si1G—O1L—Si1Ixii | 151.7 (3) | O2F—C1D—O2Dxiii | 84.19 (10) |
Si1B—O1M—Si1Jxvi | 152.5 (3) | O2Fxxxii—C1D—O2Dxiii | 95.81 (10) |
Si1B—O1M—C1A | 72.28 (16) | O2Fxxxii—C1D—O2Dxxii | 84.19 (10) |
Si1Jxvi—O1M—C1A | 80.42 (17) | O2Fxxxii—C1D—O2Exxi | 121.11 (11) |
Si1C—O2A—C1Biii | 102.02 (16) | O2F—C1D—O2Exxi | 58.90 (11) |
Si1C—O2A—C1Civ | 83.5 (2) | O2Fxxxii—C1D—O2Exiv | 58.89 (11) |
Si2B—O2A—Si1C | 157.2 (3) | O2F—C1D—O2Exiv | 121.10 (11) |
Si2B—O2A—C1Biii | 100.77 (18) | O2Fxxxii—C1D—O2F | 180.00 (9) |
Si2B—O2A—C1Civ | 83.85 (19) | O2F—C1D—O4Bxiv | 129.01 (11) |
C1Biii—O2A—C1Civ | 120.67 (14) | O2Fxxxii—C1D—O4Bxiv | 50.99 (11) |
Si1Biv—O2B—C1Avi | 99.5 (2) | O2Fxxxii—C1D—O4Bxxi | 129.01 (11) |
Si1Biv—O2B—C1C | 79.1 (2) | O2F—C1D—O4Bxxi | 50.99 (11) |
Si2C—O2B—Si1Biv | 155.0 (4) | O2Ixvi—C1D—O1Fxxxi | 120.14 (12) |
Si2C—O2B—C1Avi | 90.8 (2) | O2Ixxiv—C1D—O1Fxii | 120.14 (12) |
Si2C—O2B—C1C | 75.9 (2) | O2Ixxiv—C1D—O1Fxxxi | 59.86 (12) |
C1Avi—O2B—C1C | 111.39 (15) | O2Ixvi—C1D—O1Fxii | 59.86 (12) |
Si1Ivii—O2C—C1Bix | 91.9 (2) | O2Ixxiv—C1D—O1Gxxiv | 38.46 (10) |
Si1Ivii—O2C—C1Ci | 84.5 (2) | O2Ixvi—C1D—O1Gxxiv | 141.54 (10) |
Si2A—O2C—Si1Ivii | 155.0 (3) | O2Ixvi—C1D—O2Dxiii | 114.20 (12) |
Si2A—O2C—C1Bix | 84.1 (2) | O2Ixvi—C1D—O2Dxxii | 65.80 (12) |
Si2A—O2C—C1Ci | 72.7 (2) | O2Ixxiv—C1D—O2Dxxii | 114.20 (13) |
C1Bix—O2C—C1Ci | 104.57 (13) | O2Ixxiv—C1D—O2Dxiii | 65.80 (12) |
Si1Evii—O2D—C1Biii | 80.90 (17) | O2Ixvi—C1D—O2Exxi | 94.50 (10) |
Si1Evii—O2D—C1Diii | 99.4 (2) | O2Ixxiv—C1D—O2Exxi | 85.50 (10) |
Si2B—O2D—Si1Evii | 158.2 (3) | O2Ixvi—C1D—O2Exiv | 85.50 (10) |
Si2B—O2D—C1Biii | 77.36 (17) | O2Ixxiv—C1D—O2Exiv | 94.50 (10) |
Si2B—O2D—C1Diii | 89.4 (2) | O2Ixxiv—C1D—O2Fxxxii | 39.12 (11) |
C1Diii—O2D—C1Biii | 109.59 (13) | O2Ixxiv—C1D—O2F | 140.88 (11) |
Si1D—O2E—C1Avi | 83.24 (16) | O2Ixvi—C1D—O2F | 39.12 (11) |
Si1D—O2E—C1Dvi | 104.6 (2) | O2Ixvi—C1D—O2Fxxxii | 140.88 (11) |
Si2C—O2E—Si1D | 153.0 (3) | O2Ixxiv—C1D—O2Ixvi | 180.0 |
Si2C—O2E—C1Avi | 72.58 (16) | O2Ixvi—C1D—O4Bxxi | 70.21 (10) |
Si2C—O2E—C1Dvi | 95.5 (2) | O2Ixvi—C1D—O4Bxiv | 109.79 (10) |
C1Dvi—O2E—C1Avi | 111.79 (13) | O2Ixxiv—C1D—O4Bxiv | 70.21 (10) |
Si1L—O2F—C1A | 99.2 (2) | O2Ixxiv—C1D—O4Bxxi | 109.79 (10) |
Si1L—O2F—C1D | 93.58 (19) | O4Bxxi—C1D—O1Gxxiv | 71.34 (9) |
Si2D—O2F—Si1L | 159.3 (4) | O4Bxiv—C1D—O1Gxxiv | 108.66 (9) |
Si2D—O2F—C1A | 95.9 (2) | O4Bxiv—C1D—O4Bxxi | 180.00 (11) |
Si2D—O2F—C1D | 89.9 (2) | O4Dxi—C1D—O1Fxxxi | 108.74 (10) |
C1D—O2F—C1A | 123.27 (15) | O4Dxxxiii—C1D—O1Fxii | 108.74 (10) |
Si1Fxi—O2G—C1C | 101.94 (19) | O4Dxi—C1D—O1Fxii | 71.26 (10) |
Si1Fxi—O2G—C1Dvi | 85.94 (19) | O4Dxxxiii—C1D—O1Fxxxi | 71.26 (10) |
Si2C—O2G—Si1Fxi | 154.7 (3) | O4Dxxxiii—C1D—O1Gxxiv | 87.62 (12) |
Si2C—O2G—C1C | 103.37 (19) | O4Dxi—C1D—O1Gxxiv | 92.38 (12) |
Si2C—O2G—C1Dvi | 82.4 (2) | O4Dxxxiii—C1D—O2Dxiii | 140.77 (11) |
C1C—O2G—C1Dvi | 120.3 (2) | O4Dxi—C1D—O2Dxiii | 39.23 (11) |
Si1J—O2H—C1Ai | 87.6 (2) | O4Dxxxiii—C1D—O2Dxxii | 39.23 (11) |
Si1J—O2H—C1Biii | 87.9 (2) | O4Dxi—C1D—O2Dxxii | 140.77 (11) |
Si2Di—O2H—Si1J | 155.5 (4) | O4Dxxxiii—C1D—O2Exxi | 74.37 (11) |
Si2Di—O2H—C1Ai | 74.54 (18) | O4Dxi—C1D—O2Exiv | 74.37 (11) |
Si2Di—O2H—C1Biii | 80.4 (2) | O4Dxi—C1D—O2Exxi | 105.63 (11) |
C1Biii—O2H—C1Ai | 103.53 (11) | O4Dxxxiii—C1D—O2Exiv | 105.63 (11) |
Si1K—O2I—C1Biii | 86.1 (2) | O4Dxxxiii—C1D—O2Fxxxii | 109.28 (10) |
Si1K—O2I—C1Di | 98.68 (18) | O4Dxxxiii—C1D—O2F | 70.71 (10) |
Si2Di—O2I—Si1K | 159.3 (3) | O4Dxi—C1D—O2F | 109.29 (10) |
Si2Di—O2I—C1Biii | 79.3 (2) | O4Dxi—C1D—O2Fxxxii | 70.72 (10) |
Si2Di—O2I—C1Di | 101.1 (2) | O4Dxi—C1D—O2Ixvi | 117.67 (14) |
C1Di—O2I—C1Biii | 117.72 (16) | O4Dxi—C1D—O2Ixxiv | 62.33 (14) |
Si1Giii—O2J—Si2B | 153.7 (3) | O4Dxxxiii—C1D—O2Ixxiv | 117.67 (14) |
Si1Giii—O2J—C1Civ | 102.0 (2) | O4Dxxxiii—C1D—O2Ixvi | 62.33 (14) |
Si1Giii—O2J—C1Diii | 81.31 (19) | O4Dxxxiii—C1D—O4Bxxi | 38.40 (11) |
Si2B—O2J—C1Civ | 94.1 (2) | O4Dxi—C1D—O4Bxiv | 38.40 (11) |
Si2B—O2J—C1Diii | 73.45 (18) | O4Dxi—C1D—O4Bxxi | 141.60 (11) |
C1Civ—O2J—C1Diii | 111.54 (18) | O4Dxxxiii—C1D—O4Bxiv | 141.60 (11) |
Si1Hiv—O2K—C1Avi | 90.2 (3) | O4Dxi—C1D—O4Dxxxiii | 180.0 |
Si1Hiv—O2K—C1C | 88.7 (3) | C2Dxxvii—C2A—C2K | 97 (3) |
Si2Axvi—O2K—Si1Hiv | 171.6 (4) | C2Eiv—C2A—C2Dxxvii | 109 (3) |
Si2Axvi—O2K—C1Avi | 87.8 (3) | C2Eiv—C2A—C2Gxi | 122 (3) |
Si2Axvi—O2K—C1C | 84.4 (3) | C2Eiv—C2A—C2K | 64 (2) |
C1Avi—O2K—C1C | 110.22 (16) | C2Gxi—C2A—C2Dxxvii | 46 (2) |
Si1Axix—O2L—C1Avi | 97.1 (2) | C2Gxi—C2A—C2K | 70 (3) |
Si1Axix—O2L—C1Bxx | 89.4 (2) | C2Cxxxiv—C2B—C2Exxxv | 112 (3) |
Si2Axvi—O2L—Si1Axix | 164.0 (4) | C2Cxxxiv—C2B—C2J | 44 (2) |
Si2Axvi—O2L—C1Avi | 97.9 (2) | C2Fxviii—C2B—C2Cxxxiv | 114 (5) |
Si2Axvi—O2L—C1Bxx | 87.4 (2) | C2Fxviii—C2B—C2Exxxv | 24 (3) |
C1Avi—O2L—C1Bxx | 121.37 (13) | C2Fxviii—C2B—C2J | 132 (4) |
Si1A—O3A—C1Ai | 84.40 (17) | C2J—C2B—C2Exxxv | 112 (3) |
Si1A—O3A—C1Biii | 86.16 (17) | C2Bxxxvi—C2C—C2Fxxxvii | 24.8 (18) |
Si1J—O3A—Si1A | 178.1 (3) | C2Bxxxvi—C2C—C2Ixxix | 99 (3) |
Si1J—O3A—C1Ai | 97.06 (19) | C2Bxxxvi—C2C—C2Kxvii | 80 (3) |
Si1J—O3A—C1Biii | 94.39 (18) | C2Bxxxvi—C2C—C2Lxvii | 103 (3) |
C1Biii—O3A—C1Ai | 111.55 (11) | C2Fxxxvii—C2C—C2Lxvii | 79 (3) |
Si1Fxvi—O3B—Si1G | 168.5 (4) | C2Ixxix—C2C—C2Fxxxvii | 97 (3) |
Si1Fxvi—O3B—C1Cxiv | 83.4 (3) | C2Ixxix—C2C—C2Kxvii | 85 (3) |
Si1Fxvi—O3B—C1D | 85.7 (2) | C2Ixxix—C2C—C2Lxvii | 76 (3) |
Si1G—O3B—C1Cxiv | 90.1 (3) | C2Jxxxvi—C2C—C2Bxxxvi | 78 (4) |
Si1G—O3B—C1D | 87.4 (2) | C2Jxxxvi—C2C—C2Fxxxvii | 92 (4) |
C1Cxiv—O3B—C1D | 108.87 (11) | C2Jxxxvi—C2C—C2Ixxix | 43 (3) |
Si1Dv—O3C—Si1Liv | 164.4 (4) | C2Jxxxvi—C2C—C2Kxvii | 118 (4) |
Si1Dv—O3C—C1Avi | 91.07 (19) | C2Jxxxvi—C2C—C2Lxvii | 118 (4) |
Si1Dv—O3C—C1Dix | 86.63 (19) | C2Kxvii—C2C—C2Fxxxvii | 56 (3) |
Si1Liv—O3C—C1Avi | 86.15 (17) | C2Kxvii—C2C—C2Lxvii | 24 (2) |
Si1Liv—O3C—C1Dix | 79.48 (18) | C2Axxxi—C2D—C2Exviii | 32.7 (14) |
C1Avi—O3C—C1Dix | 106.78 (11) | C2Axxxi—C2D—C2I | 107 (3) |
Si1Exxi—O3D—C1Biii | 90.2 (2) | C2Gxii—C2D—C2Axxxi | 58 (2) |
Si1Exxi—O3D—C1Di | 91.93 (19) | C2Gxii—C2D—C2Exviii | 76 (3) |
Si1K—O3D—Si1Exxi | 172.6 (4) | C2Gxii—C2D—C2H | 120 (4) |
Si1K—O3D—C1Biii | 92.45 (18) | C2Gxii—C2D—C2I | 78 (3) |
Si1K—O3D—C1Di | 80.62 (18) | C2H—C2D—C2Axxxi | 125 (4) |
C1Biii—O3D—C1Di | 110.83 (13) | C2H—C2D—C2Exviii | 93 (3) |
Si1C—O3E—C1Biii | 86.89 (19) | C2H—C2D—C2I | 42 (3) |
Si1C—O3E—C1Civ | 83.75 (19) | C2I—C2D—C2Exviii | 86 (2) |
Si1I—O3E—Si1C | 175.7 (3) | C2Aiv—C2E—C2Bxxxviii | 118 (3) |
Si1I—O3E—C1Biii | 90.10 (18) | C2Aiv—C2E—C2Dxviii | 38.6 (16) |
Si1I—O3E—C1Civ | 100.2 (2) | C2Aiv—C2E—C2Kiv | 73 (3) |
C1Civ—O3E—C1Biii | 111.65 (12) | C2Bxxxviii—C2E—C2Dxviii | 82.6 (19) |
Si1B—O3F—C1A | 93.1 (2) | C2Bxxxviii—C2E—C2Kiv | 75 (3) |
Si1B—O3F—C1Civ | 86.6 (2) | C2Fxvi—C2E—C2Aiv | 134 (4) |
Si1H—O3F—Si1B | 173.9 (4) | C2Fxvi—C2E—C2Bxxxviii | 22 (3) |
Si1H—O3F—C1A | 92.9 (2) | C2Fxvi—C2E—C2Dxviii | 103 (4) |
Si1H—O3F—C1Civ | 90.0 (2) | C2Fxvi—C2E—C2Kiv | 72 (4) |
C1A—O3F—C1Civ | 112.45 (15) | C2Kiv—C2E—C2Dxviii | 76 (2) |
Si2Di—O4A—Si3xxi | 147.3 (3) | C2Bxviii—C2F—C2Cxxxvii | 41 (3) |
Si2Di—O4A—C1Ai | 94.2 (2) | C2Bxviii—C2F—C2Ei | 134 (5) |
Si2Di—O4A—C1Biii | 104.5 (2) | C2Bxviii—C2F—C2Kvii | 101 (4) |
Si2Di—O4A—C1Di | 74.02 (15) | C2Cxxxvii—C2F—C2Kvii | 61 (3) |
Si3xxi—O4A—C1Ai | 89.4 (2) | C2Ei—C2F—C2Cxxxvii | 121 (4) |
Si3xxi—O4A—C1Biii | 96.87 (19) | C2Ei—C2F—C2Kvii | 77 (4) |
Si3xxi—O4A—C1Di | 74.45 (15) | C2Axi—C2G—C2Hxv | 90 (2) |
C1Ai—O4A—C1Di | 111.40 (10) | C2Axi—C2G—C2Ixv | 106 (3) |
C1Biii—O4A—C1Ai | 131.86 (12) | C2Axi—C2G—C2Kxi | 68 (2) |
C1Biii—O4A—C1Di | 116.26 (12) | C2Axi—C2G—C2Lxi | 91 (3) |
Si2C—O4B—C1Avi | 102.9 (2) | C2Dxv—C2G—C2Axi | 76 (3) |
Si2C—O4B—C1C | 82.7 (3) | C2Dxv—C2G—C2Hxv | 31 (3) |
Si2C—O4B—C1Dvi | 86.1 (3) | C2Dxv—C2G—C2Ixv | 59 (3) |
Si3xvi—O4B—Si2C | 154.8 (4) | C2Dxv—C2G—C2Kxi | 114 (4) |
Si3xvi—O4B—C1Avi | 101.6 (2) | C2Dxv—C2G—C2Lxi | 125 (4) |
Si3xvi—O4B—C1C | 78.9 (3) | C2Hxv—C2G—C2Lxi | 99 (3) |
Si3xvi—O4B—C1Dvi | 84.3 (3) | C2Ixv—C2G—C2Hxv | 27.8 (18) |
C1Avi—O4B—C1C | 123.4 (2) | C2Ixv—C2G—C2Kxi | 80 (2) |
C1Avi—O4B—C1Dvi | 125.93 (19) | C2Ixv—C2G—C2Lxi | 76 (2) |
C1Dvi—O4B—C1C | 110.56 (14) | C2Kxi—C2G—C2Hxv | 95 (3) |
Si2A—O4C—C1Ax | 78.60 (18) | C2Kxi—C2G—C2Lxi | 23 (2) |
Si2A—O4C—C1Bix | 91.5 (2) | C2D—C2H—C2Gxii | 29 (2) |
Si2A—O4C—C1Ci | 106.3 (2) | C2D—C2H—C2Jxvi | 121 (5) |
Si3—O4C—Si2A | 147.8 (3) | C2I—C2H—C2D | 81 (4) |
Si3—O4C—C1Ax | 72.22 (18) | C2I—C2H—C2Gxii | 52 (3) |
Si3—O4C—C1Bix | 86.7 (2) | C2I—C2H—C2Jxvi | 56 (4) |
Si3—O4C—C1Ci | 99.06 (18) | C2Jxvi—C2H—C2Gxii | 96 (3) |
C1Bix—O4C—C1Ax | 111.44 (10) | C2Cxxxix—C2I—C2Kxxxi | 52 (2) |
C1Ci—O4C—C1Ax | 116.9 (2) | C2D—C2I—C2Cxxxix | 126 (3) |
C1Ci—O4C—C1Bix | 130.7 (2) | C2D—C2I—C2Kxxxi | 85 (3) |
Si2Bvii—O4D—Si3 | 152.1 (3) | C2Gxii—C2I—C2Cxxxix | 108 (3) |
Si2Bvii—O4D—C1Bix | 84.9 (2) | C2Gxii—C2I—C2D | 44 (2) |
Si2Bvii—O4D—C1Ci | 84.6 (3) | C2Gxii—C2I—C2Kxxxi | 55 (2) |
Si2Bvii—O4D—C1Dx | 103.21 (19) | C2H—C2I—C2Cxxxix | 115 (4) |
Si3—O4D—C1Bix | 77.5 (2) | C2H—C2I—C2D | 57 (4) |
Si3—O4D—C1Ci | 82.0 (3) | C2H—C2I—C2Gxii | 100 (4) |
Si3—O4D—C1Dx | 104.5 (2) | C2H—C2I—C2Jxvi | 75 (4) |
C1Ci—O4D—C1Bix | 111.62 (14) | C2H—C2I—C2Kxxxi | 122 (4) |
C1Dx—O4D—C1Bix | 123.02 (17) | C2Jxvi—C2I—C2Cxxxix | 44 (3) |
C1Dx—O4D—C1Ci | 125.19 (19) | C2Jxvi—C2I—C2D | 117 (4) |
O2Bxxi—C1A—Si3vii | 120.53 (8) | C2Jxvi—C2I—C2Gxii | 136 (4) |
O2Biv—C1A—Si3vii | 59.47 (8) | C2Jxvi—C2I—C2Kxxxi | 90 (3) |
O2Biv—C1A—O2Bxxi | 180.0 | C2Cxxxiv—C2J—C2B | 59 (3) |
O2Bxxi—C1A—O2Fxxii | 92.42 (10) | C2Cxxxiv—C2J—C2Hi | 135 (5) |
O2Biv—C1A—O2Fxxii | 87.58 (10) | C2Cxxxiv—C2J—C2Ii | 92 (4) |
O2Bxxi—C1A—O2F | 87.58 (10) | C2Hi—C2J—C2B | 111 (4) |
O2Biv—C1A—O2F | 92.42 (10) | C2Ii—C2J—C2B | 115 (4) |
O2Biv—C1A—O2Kiv | 66.41 (12) | C2Ii—C2J—C2Hi | 50 (3) |
O2Bxxi—C1A—O2Kxxi | 66.41 (12) | C2A—C2K—C2Eiv | 43.1 (19) |
O2Bxxi—C1A—O2Kiv | 113.59 (12) | C2A—C2K—C2Fvii | 70 (3) |
O2Biv—C1A—O2Kxxi | 113.59 (12) | C2A—C2K—C2Ixxvii | 69 (2) |
O2Bxxi—C1A—O2Liv | 84.03 (11) | C2Cxl—C2K—C2A | 101 (3) |
O2Bxxi—C1A—O2Lxxi | 95.97 (11) | C2Cxl—C2K—C2Eiv | 86 (3) |
O2Biv—C1A—O2Liv | 95.97 (11) | C2Cxl—C2K—C2Fvii | 63 (3) |
O2Biv—C1A—O2Lxxi | 84.03 (11) | C2Cxl—C2K—C2Ixxvii | 42.0 (19) |
O2Bxxi—C1A—O3Fxxii | 38.58 (10) | C2Fvii—C2K—C2Eiv | 30.0 (19) |
O2Biv—C1A—O3Fxxii | 141.42 (10) | C2Gxi—C2K—C2A | 42.2 (16) |
O2Bxxi—C1A—O3F | 141.42 (10) | C2Gxi—C2K—C2Cxl | 87 (3) |
O2Biv—C1A—O3F | 38.58 (10) | C2Gxi—C2K—C2Eiv | 80 (3) |
O2Fxxii—C1A—Si3vii | 53.59 (8) | C2Gxi—C2K—C2Fvii | 98 (3) |
O2F—C1A—Si3vii | 126.41 (8) | C2Gxi—C2K—C2Ixxvii | 45.0 (17) |
O2F—C1A—O2Fxxii | 180.0 | C2Ixxvii—C2K—C2Eiv | 82 (3) |
O2F—C1A—O2Kiv | 71.29 (11) | C2Ixxvii—C2K—C2Fvii | 78 (3) |
O2Fxxii—C1A—O2Kiv | 108.71 (11) | C2L—C2K—C2A | 109 (6) |
O2Fxxii—C1A—O2Kxxi | 71.29 (11) | C2L—C2K—C2Cxl | 78 (6) |
O2F—C1A—O2Kxxi | 108.71 (11) | C2L—C2K—C2Eiv | 145 (7) |
O2Fxxii—C1A—O3Fxxii | 62.00 (11) | C2L—C2K—C2Fvii | 140 (7) |
O2Fxxii—C1A—O3F | 118.00 (11) | C2L—C2K—C2Gxi | 67 (5) |
O2F—C1A—O3F | 62.00 (11) | C2L—C2K—C2Ixxvii | 65 (6) |
O2F—C1A—O3Fxxii | 118.00 (11) | C2Cxl—C2L—C2Gxi | 92 (3) |
O2Kxxi—C1A—Si3vii | 123.91 (8) | C2K—C2L—C2Cxl | 78 (6) |
O2Kiv—C1A—Si3vii | 56.09 (8) | C2K—C2L—C2Gxi | 90 (6) |
Symmetry codes: (i) x, y+1, z; (ii) x−1, y+1, z; (iii) x, y+1/2, z−1/2; (iv) −x+1, −y+1/2, −z+1/2; (v) −x+2, −y+1/2, −z+1/2; (vi) x+1, y, z; (vii) −x+1, −y+3/2, −z+1/2; (viii) −x+2, −y+1, −z+1; (ix) x+1, y+1/2, z−1/2; (x) x+1, y+1, z; (xi) −x+1, −y+1, −z+1; (xii) −x+1/2, y−1/2, −z+1; (xiii) x, y−1/2, z+1/2; (xiv) −x+1, −y, −z+1; (xv) −x+1/2, y+1/2, −z+1; (xvi) x, y−1, z; (xvii) x, y−1/2, z−1/2; (xviii) −x+1/2, y, −z+1/2; (xix) x+1, y−1, z; (xx) x+1, y−1/2, z−1/2; (xxi) x−1, y, z; (xxii) −x, −y+1/2, −z+1/2; (xxiii) −x, −y+3/2, −z+1/2; (xxiv) −x, −y+1, −z+1; (xxv) x−1, y−1/2, z+1/2; (xxvi) x−1, y+1/2, z+1/2; (xxvii) x+1/2, −y+1/2, z; (xxviii) −x+3/2, y, −z+1/2; (xxix) x+1/2, −y, z−1/2; (xxx) −x+3/2, y−1, −z+1/2; (xxxi) x−1/2, −y+1/2, z; (xxxii) −x, −y, −z+1; (xxxiii) x−1, y−1, z; (xxxiv) x−1/2, −y+1, z+1/2; (xxxv) −x+1/2, y+1, −z+1/2; (xxxvi) x+1/2, −y+1, z−1/2; (xxxvii) −x+1, −y+1, −z; (xxxviii) −x+1/2, y−1, −z+1/2; (xxxix) x−1/2, −y, z+1/2; (xl) x, y+1/2, z+1/2. |
0.01(C50.26Na1.27O272Si136)·0.16(C) | Dx = 1.961 Mg m−3 |
Mr = 63.35 | Mo Kα radiation, λ = 0.71073 Å |
Cubic, Fd3m | Cell parameters from 31792 reflections |
a = 19.3944 (15) Å | θ = 3–67° |
V = 7295.1 (17) Å3 | µ = 0.71 mm−1 |
Z = 136 | T = 150 K |
F(000) = 4301 | Platelet |
StoeStadiVari diffractometer | θmax = 33.4°, θmin = 3.0° |
30481 measured reflections | h = −29→29 |
721 independent reflections | k = −29→29 |
695 reflections with I > 2σ(I) | l = −14→29 |
Rint = 0.303 |
Refinement on F2 | 0 restraints |
Least-squares matrix: full | w = 1/[σ2(Fo2) + 2280.P] where P = (Fo2 + 2Fc2)/3 |
R[F2 > 2σ(F2)] = 0.220 | (Δ/σ)max < 0.001 |
wR(F2) = 0.415 | Δρmax = 1.39 e Å−3 |
S = 1.20 | Δρmin = −6.25 e Å−3 |
721 reflections | Extinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4 |
44 parameters | Extinction coefficient: 0.0017 (4) |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1 | 0.0679 (2) | 0.0679 (2) | 0.3691 (2) | 0.0305 (15) | |
Si2 | 0.21641 (19) | 0.21641 (19) | 0.21641 (19) | 0.0113 (14) | |
Si3 | 0.1250 | 0.1250 | 0.1250 | 0.015 (3) | |
O1 | 0.0000 | 0.3449 (9) | −0.3449 (9) | 0.079 (7) | |
O2 | 0.1998 (13) | 0.1998 (13) | 0.2937 (12) | 0.115 (11) | |
O3 | 0.3749 (16) | 0.1250 | 0.1250 | 0.057 (6) | |
O4 | 0.1717 (8) | 0.1717 (8) | 0.1717 (8) | 0.110 (18) | |
Na | 0.5000 | 0.5000 | 0.5000 | 0.050* | 0.08 (6) |
C1 | 0.0000 | 0.0000 | 0.0000 | 0.031 (9) | |
C2B | 0.401 (10) | 0.401 (10) | 0.401 (10) | 0.050* | 0.2 (2) |
C2C | 0.356 (7) | 0.356 (7) | 0.283 (10) | 0.050* | 0.15 (7) |
C2D | 0.359 (6) | 0.359 (6) | 0.431 (10) | 0.050* | 0.18 (8) |
C2E | 0.323 (5) | 0.323 (5) | 0.351 (6) | 0.050* | 0.20 (6) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Si1 | 0.041 (2) | 0.041 (2) | 0.0093 (19) | 0.020 (2) | −0.0063 (14) | −0.0063 (14) |
Si2 | 0.0113 (14) | 0.0113 (14) | 0.0113 (14) | −0.0026 (12) | −0.0026 (12) | −0.0026 (12) |
Si3 | 0.015 (3) | 0.015 (3) | 0.015 (3) | 0.000 | 0.000 | 0.000 |
O1 | 0.058 (12) | 0.090 (11) | 0.090 (11) | −0.021 (7) | −0.021 (7) | −0.022 (12) |
O2 | 0.154 (17) | 0.154 (17) | 0.036 (11) | 0.01 (2) | 0.041 (10) | 0.041 (10) |
O3 | 0.082 (19) | 0.044 (8) | 0.044 (8) | 0.000 | 0.000 | 0.007 (11) |
O4 | 0.110 (18) | 0.110 (18) | 0.110 (18) | −0.056 (11) | −0.056 (11) | −0.056 (11) |
C1 | 0.031 (9) | 0.031 (9) | 0.031 (9) | 0.001 (10) | 0.001 (10) | 0.001 (10) |
Si1—O1i | 1.580 (4) | C2B—C2Dxxxii | 0.6 (2) |
Si1—O1ii | 1.580 (4) | C2B—C2Dvi | 0.6 (2) |
Si1—O2iii | 1.540 (19) | C2B—C2D | 1.29 (15) |
Si1—O3iv | 1.571 (7) | C2B—C2Dxxxi | 0.6 (2) |
Si1—Nav | 3.148 (5) | C2B—C2Dvii | 1.29 (15) |
Si1—Navi | 5.604 (6) | C2B—C2Dviii | 1.29 (15) |
Si2—O2 | 1.567 (19) | C2B—C2Evi | 1.20 (13) |
Si2—O2vii | 1.567 (19) | C2B—C2Exxxi | 1.20 (13) |
Si2—O2viii | 1.567 (19) | C2B—C2Exxxii | 1.20 (13) |
Si2—O4 | 1.50 (3) | C2C—C2Bxxxiii | 1.55 (18) |
Si2—Navi | 5.577 (4) | C2C—C2Bxxxiv | 1.55 (18) |
Si2—Naix | 5.577 (4) | C2C—C2Cvi | 1.1 (4) |
Si2—Nax | 5.577 (4) | C2C—C2Dxxxv | 1.8 (2) |
Si3—O4 | 1.57 (3) | C2C—C2Dxxxiv | 1.0 (2) |
Si3—O4xi | 1.57 (3) | C2C—C2Dxxxiii | 1.0 (2) |
Si3—O4iii | 1.57 (3) | C2C—C2Dxxxvi | 1.8 (2) |
Si3—O4xii | 1.57 (3) | C2C—C2Eviii | 1.00 (17) |
O1—Si1xiii | 1.580 (4) | C2C—C2Exxxv | 1.79 (19) |
O1—Si1xiv | 1.580 (4) | C2C—C2Evii | 1.00 (17) |
O1—Naxv | 2.60 (2) | C2C—C2Exxxvi | 1.79 (19) |
O2—Si1iii | 1.540 (19) | C2C—C2E | 1.6 (2) |
O2—Navi | 4.23 (3) | C2D—C2Bvi | 0.6 (2) |
O3—Si1vii | 1.572 (7) | C2D—C2Cxxxiv | 1.0 (2) |
O3—Si1xvi | 1.572 (7) | C2D—C2Cxxxiii | 1.0 (2) |
O3—Naxvii | 4.200 (18) | C2D—C2Dvi | 0.9 (3) |
O3—Naix | 4.200 (18) | C2D—C2Dxxxvii | 1.1 (4) |
Na—Si1xviii | 3.149 (5) | C2D—C2Dxxxviii | 1.1 (4) |
Na—Si1xix | 3.149 (5) | C2D—C2Exxxii | 1.32 (12) |
Na—Si1xx | 3.149 (5) | C2D—C2Exxxi | 1.32 (12) |
Na—Si1xxi | 3.149 (5) | C2D—C2Exxxiv | 1.61 (13) |
Na—Si1xxii | 3.149 (5) | C2D—C2Exxxviii | 1.04 (11) |
Na—Si1xxiii | 3.149 (5) | C2D—C2Exxxvii | 1.04 (11) |
Na—O1xxiv | 2.60 (2) | C2E—C2Bvi | 1.20 (13) |
Na—O1xxv | 2.60 (2) | C2E—C2Bxxxiv | 1.60 (17) |
Na—O1xxvi | 2.60 (2) | C2E—C2Bxxxiii | 1.60 (17) |
Na—O1xxvii | 2.60 (2) | C2E—C2Cvii | 1.00 (17) |
Na—O1xxviii | 2.60 (2) | C2E—C2Cviii | 1.00 (17) |
Na—O1xxix | 2.60 (2) | C2E—C2Dxxxvi | 1.32 (12) |
Na—C2Dxxx | 3.28 (15) | C2E—C2Dxxxvii | 1.04 (11) |
Na—C2Dxxxi | 3.28 (15) | C2E—C2Dxxxviii | 1.04 (11) |
Na—C2Dxxxii | 3.28 (15) | C2E—C2Dxxxv | 1.32 (12) |
C2B—C2Bxxxiii | 1.4 (5) | C2E—C2Eviii | 0.8 (2) |
C2B—C2Bvi | 1.4 (5) | C2E—C2Evii | 0.8 (2) |
C2B—C2Bxxxiv | 1.4 (5) | ||
O1ii—Si1—O1i | 110.9 (18) | C2Exxxii—C2B—C2Bxxxiv | 126 (10) |
O1i—Si1—Navi | 96.6 (2) | C2Evi—C2B—C2Bxxxiii | 74 (10) |
O1i—Si1—Nav | 55.5 (9) | C2Exxxi—C2B—C2Dviii | 64 (6) |
O1ii—Si1—Navi | 96.6 (2) | C2Evi—C2B—C2D | 152 (10) |
O1ii—Si1—Nav | 55.5 (9) | C2Exxxii—C2B—C2D | 64 (6) |
O2iii—Si1—O1ii | 108.0 (8) | C2Evi—C2B—C2Dvii | 64 (6) |
O2iii—Si1—O1i | 108.0 (8) | C2Exxxii—C2B—C2Dvii | 64 (6) |
O2iii—Si1—O3iv | 112.5 (18) | C2Exxxi—C2B—C2D | 64 (6) |
O2iii—Si1—Navi | 135.3 (14) | C2Exxxii—C2B—C2Dviii | 152 (10) |
O2iii—Si1—Nav | 125.4 (14) | C2Exxxi—C2B—C2Dvii | 152 (10) |
O3iv—Si1—O1i | 108.8 (7) | C2Evi—C2B—C2Dviii | 64 (6) |
O3iv—Si1—O1ii | 108.8 (7) | C2Exxxi—C2B—C2Exxxii | 120.0 (4) |
O3iv—Si1—Nav | 122.1 (12) | C2Exxxi—C2B—C2Evi | 120.0 (4) |
O3iv—Si1—Navi | 22.8 (11) | C2Exxxii—C2B—C2Evi | 120.0 (4) |
Nav—Si1—Navi | 99.29 (10) | C2Bxxxiii—C2C—C2Bxxxiv | 56 (10) |
O2viii—Si2—O2vii | 110.5 (13) | C2Bxxxiv—C2C—C2Dxxxvi | 21 (6) |
O2—Si2—O2vii | 110.5 (13) | C2Bxxxiii—C2C—C2Dxxxvi | 65 (10) |
O2—Si2—O2viii | 110.5 (13) | C2Bxxxiii—C2C—C2Dxxxv | 21 (6) |
O2—Si2—Naix | 96.6 (11) | C2Bxxxiv—C2C—C2Dxxxv | 65 (10) |
O2—Si2—Navi | 26.4 (14) | C2Bxxxiv—C2C—C2Exxxv | 57 (10) |
O2vii—Si2—Navi | 96.6 (11) | C2Bxxxiii—C2C—C2Exxxvi | 57 (10) |
O2vii—Si2—Nax | 96.6 (11) | C2Bxxxiii—C2C—C2Exxxv | 41 (6) |
O2vii—Si2—Naix | 26.4 (14) | C2Bxxxiii—C2C—C2E | 61 (10) |
O2viii—Si2—Navi | 96.6 (11) | C2Bxxxiv—C2C—C2Exxxvi | 41 (6) |
O2viii—Si2—Nax | 26.4 (14) | C2Bxxxiv—C2C—C2E | 61 (10) |
O2viii—Si2—Naix | 96.6 (11) | C2Cvi—C2C—C2Bxxxiv | 70 (7) |
O2—Si2—Nax | 96.6 (11) | C2Cvi—C2C—C2Bxxxiii | 70 (7) |
O4—Si2—O2vii | 108.4 (14) | C2Cvi—C2C—C2Dxxxv | 91 (7) |
O4—Si2—O2viii | 108.4 (14) | C2Cvi—C2C—C2Dxxxvi | 91 (7) |
O4—Si2—O2 | 108.4 (14) | C2Cvi—C2C—C2Exxxvi | 29 (7) |
O4—Si2—Nax | 134.77 (5) | C2Cvi—C2C—C2Exxxv | 29 (7) |
O4—Si2—Navi | 134.77 (5) | C2Cvi—C2C—C2E | 124 (9) |
O4—Si2—Naix | 134.77 (5) | C2Dxxxiii—C2C—C2Bxxxiii | 56 (10) |
Naix—Si2—Nax | 75.87 (7) | C2Dxxxiv—C2C—C2Bxxxiv | 56 (10) |
Naix—Si2—Navi | 75.87 (7) | C2Dxxxiii—C2C—C2Bxxxiv | 13 (8) |
Nax—Si2—Navi | 75.87 (7) | C2Dxxxiv—C2C—C2Bxxxiii | 13 (8) |
O4—Si3—O4xi | 109.471 (2) | C2Dxxxiii—C2C—C2Cvi | 57 (10) |
O4—Si3—O4iii | 109.5 | C2Dxxxiv—C2C—C2Cvi | 57 (10) |
O4xi—Si3—O4xii | 109.471 (1) | C2Dxxxiv—C2C—C2Dxxxv | 34 (10) |
O4xii—Si3—O4iii | 109.471 (2) | C2Dxxxiii—C2C—C2Dxxxvi | 34 (10) |
O4xi—Si3—O4iii | 109.471 (2) | C2Dxxxiv—C2C—C2Dxxxiii | 53 (10) |
O4—Si3—O4xii | 109.471 (5) | C2Dxxxiii—C2C—C2Dxxxv | 70 (10) |
Si1xiii—O1—Si1xiv | 171.0 (18) | C2Dxxxvi—C2C—C2Dxxxv | 68 (10) |
Si1xiii—O1—Naxv | 94.5 (9) | C2Dxxxiv—C2C—C2Dxxxvi | 70 (10) |
Si1xiv—O1—Naxv | 94.5 (9) | C2Dxxxvi—C2C—C2Exxxvi | 62 (8) |
Si1iii—O2—Si2 | 179 (3) | C2Dxxxiii—C2C—C2E | 74 (10) |
Si1iii—O2—Navi | 37.3 (10) | C2Dxxxiv—C2C—C2Exxxv | 28 (10) |
Si2—O2—Navi | 144.1 (18) | C2Dxxxiii—C2C—C2Exxxv | 47 (10) |
Si1vii—O3—Si1xvi | 172 (2) | C2Dxxxiv—C2C—C2Evii | 64 (10) |
Si1vii—O3—Naix | 148.9 (15) | C2Dxxxvi—C2C—C2Exxxv | 77 (9) |
Si1xvi—O3—Naix | 39.4 (8) | C2Dxxxiv—C2C—C2Eviii | 84 (10) |
Si1vii—O3—Naxvii | 39.4 (8) | C2Dxxxiv—C2C—C2Exxxvi | 47 (10) |
Si1xvi—O3—Naxvii | 148.9 (15) | C2Dxxxiv—C2C—C2E | 74 (10) |
Naix—O3—Naxvii | 109.4 (7) | C2Dxxxiii—C2C—C2Eviii | 64 (10) |
Si2—O4—Si3 | 180 (3) | C2Dxxxv—C2C—C2Exxxvi | 77 (9) |
Si1xxii—Na—Si1xix | 60.029 (6) | C2Dxxxiii—C2C—C2Exxxvi | 28 (10) |
Si1xx—Na—Si1xix | 180.0 | C2Dxxxv—C2C—C2Exxxv | 62 (8) |
Si1xxiii—Na—Si1xix | 119.971 (6) | C2Dxxxiii—C2C—C2Evii | 84 (10) |
Si1xxiii—Na—Si1xxi | 119.971 (6) | C2Eviii—C2C—C2Bxxxiii | 74 (10) |
Si1xxii—Na—Si1xxi | 60.029 (6) | C2Eviii—C2C—C2Bxxxiv | 51 (10) |
Si1xxiii—Na—Si1xviii | 60.029 (6) | C2Evii—C2C—C2Bxxxiv | 74 (10) |
Si1xxii—Na—Si1xviii | 119.971 (6) | C2Evii—C2C—C2Bxxxiii | 51 (10) |
Si1xix—Na—Si1xxi | 119.971 (6) | C2Eviii—C2C—C2Cvi | 121 (10) |
Si1xx—Na—Si1xviii | 119.971 (6) | C2Evii—C2C—C2Cvi | 121 (10) |
Si1xxii—Na—Si1xxiii | 180.00 (14) | C2Eviii—C2C—C2Dxxxv | 64 (10) |
Si1xxi—Na—Si1xviii | 180.0 | C2E—C2C—C2Dxxxv | 46 (8) |
Si1xix—Na—Si1xviii | 60.029 (6) | C2Evii—C2C—C2Dxxxvi | 64 (10) |
Si1xxii—Na—Si1xx | 119.971 (6) | C2Eviii—C2C—C2Dxxxvi | 31 (10) |
Si1xxiii—Na—Si1xx | 60.029 (6) | C2E—C2C—C2Dxxxvi | 46 (8) |
Si1xx—Na—Si1xxi | 60.029 (6) | C2Evii—C2C—C2Dxxxv | 31 (10) |
Si1xx—Na—C2Dxxxii | 94.6 (18) | C2Eviii—C2C—C2Exxxvi | 92 (10) |
Si1xviii—Na—C2Dxxxi | 94.6 (18) | C2Eviii—C2C—C2Evii | 45 (10) |
Si1xxi—Na—C2Dxxx | 94.6 (18) | C2Evii—C2C—C2E | 23 (8) |
Si1xxiii—Na—C2Dxxxii | 102 (4) | C2Evii—C2C—C2Exxxvi | 101 (10) |
Si1xx—Na—C2Dxxx | 102 (4) | C2Eviii—C2C—C2Exxxv | 101 (10) |
Si1xix—Na—C2Dxxx | 78 (4) | C2Eviii—C2C—C2E | 23 (8) |
Si1xxii—Na—C2Dxxxii | 78 (4) | C2Evii—C2C—C2Exxxv | 92 (10) |
Si1xxi—Na—C2Dxxxii | 85.4 (18) | C2E—C2C—C2Exxxvi | 98 (10) |
Si1xxiii—Na—C2Dxxxi | 85.4 (18) | C2Exxxvi—C2C—C2Exxxv | 25 (8) |
Si1xxiii—Na—C2Dxxx | 94.6 (18) | C2E—C2C—C2Exxxv | 98 (10) |
Si1xx—Na—C2Dxxxi | 78 (4) | C2Bvi—C2D—C2B | 90 (10) |
Si1xviii—Na—C2Dxxxii | 94.6 (18) | C2Bvi—C2D—C2Cxxxiii | 147 (10) |
Si1xix—Na—C2Dxxxi | 102 (4) | C2Bvi—C2D—C2Cxxxiv | 147 (10) |
Si1xviii—Na—C2Dxxx | 85.4 (18) | C2Bvi—C2D—C2Dxxxvii | 31 (9) |
Si1xxi—Na—C2Dxxxi | 85.4 (18) | C2Bvi—C2D—C2Dvi | 117 (10) |
Si1xxii—Na—C2Dxxxi | 94.6 (18) | C2Bvi—C2D—C2Dxxxviii | 31 (9) |
Si1xxii—Na—C2Dxxx | 85.4 (18) | C2Bvi—C2D—C2Exxxvii | 87 (10) |
Si1xix—Na—C2Dxxxii | 85.4 (18) | C2Bvi—C2D—C2Exxxiv | 77 (10) |
O1xxv—Na—Si1xxi | 149.986 (3) | C2Bvi—C2D—C2Exxxviii | 87 (10) |
O1xxvii—Na—Si1xviii | 149.986 (3) | C2B—C2D—C2Exxxii | 55 (7) |
O1xxvii—Na—Si1xxiii | 90.0 | C2B—C2D—C2Exxxi | 55 (7) |
O1xxiv—Na—Si1xxi | 149.986 (3) | C2B—C2D—C2Exxxiv | 66 (8) |
O1xxviii—Na—Si1xxiii | 149.986 (3) | C2Bvi—C2D—C2Exxxi | 103 (10) |
O1xxvii—Na—Si1xxi | 30.014 (3) | C2Bvi—C2D—C2Exxxii | 103 (10) |
O1xxv—Na—Si1xx | 90.0 | C2Cxxxiv—C2D—C2B | 85 (10) |
O1xxix—Na—Si1xviii | 90.0 | C2Cxxxiii—C2D—C2B | 85 (10) |
O1xxiv—Na—Si1xix | 30.014 (3) | C2Cxxxiv—C2D—C2Cxxxiii | 66 (10) |
O1xxviii—Na—Si1xviii | 90.0 | C2Cxxxiii—C2D—C2Dxxxvii | 176 (10) |
O1xxvii—Na—Si1xix | 149.986 (3) | C2Cxxxiv—C2D—C2Dxxxvii | 117 (10) |
O1xxvi—Na—Si1xviii | 149.986 (3) | C2Cxxxiv—C2D—C2Dxxxviii | 176 (10) |
O1xxix—Na—Si1xxi | 90.000 (1) | C2Cxxxiii—C2D—C2Dxxxviii | 117 (10) |
O1xxvi—Na—Si1xxii | 30.014 (3) | C2Cxxxiii—C2D—C2Exxxvii | 60 (10) |
O1xxix—Na—Si1xxii | 149.986 (3) | C2Cxxxiv—C2D—C2Exxxi | 101 (10) |
O1xxviii—Na—Si1xxi | 90.0 | C2Cxxxiv—C2D—C2Exxxviii | 60 (10) |
O1xxviii—Na—Si1xxii | 30.014 (3) | C2Cxxxiii—C2D—C2Exxxii | 101 (10) |
O1xxv—Na—Si1xviii | 30.014 (3) | C2Cxxxiv—C2D—C2Exxxvii | 125 (10) |
O1xxix—Na—Si1xxiii | 30.014 (3) | C2Cxxxiii—C2D—C2Exxxi | 49 (10) |
O1xxix—Na—Si1xix | 149.986 (3) | C2Cxxxiii—C2D—C2Exxxviii | 125 (10) |
O1xxvi—Na—Si1xxiii | 149.986 (3) | C2Cxxxiv—C2D—C2Exxxii | 49 (10) |
O1xxvii—Na—Si1xx | 30.014 (3) | C2Cxxxiii—C2D—C2Exxxiv | 129 (10) |
O1xxiv—Na—Si1xxiii | 90.0 | C2Cxxxiv—C2D—C2Exxxiv | 71 (10) |
O1xxv—Na—Si1xxiii | 30.014 (3) | C2Dvi—C2D—C2B | 26 (10) |
O1xxix—Na—Si1xx | 30.014 (3) | C2Dxxxvii—C2D—C2B | 98 (10) |
O1xxviii—Na—Si1xix | 30.014 (3) | C2Dxxxviii—C2D—C2B | 98 (10) |
O1xxvi—Na—Si1xx | 90.000 (1) | C2Dvi—C2D—C2Cxxxiii | 64 (10) |
O1xxvii—Na—Si1xxii | 90.0 | C2Dvi—C2D—C2Cxxxiv | 64 (10) |
O1xxiv—Na—Si1xx | 149.986 (3) | C2Dvi—C2D—C2Dxxxvii | 120.00 (9) |
O1xxvi—Na—Si1xix | 90.0 | C2Dxxxvii—C2D—C2Dxxxviii | 60.00 (4) |
O1xxiv—Na—Si1xviii | 30.014 (3) | C2Dvi—C2D—C2Dxxxviii | 120.00 (5) |
O1xxviii—Na—Si1xx | 149.986 (3) | C2Dxxxvii—C2D—C2Exxxii | 83 (9) |
O1xxvi—Na—Si1xxi | 30.014 (3) | C2Dvi—C2D—C2Exxxii | 52 (7) |
O1xxv—Na—Si1xix | 90.000 (1) | C2Dvi—C2D—C2Exxxi | 52 (7) |
O1xxv—Na—Si1xxii | 149.986 (3) | C2Dvi—C2D—C2Exxxiv | 74 (6) |
O1xxiv—Na—Si1xxii | 90.0 | C2Dxxxvii—C2D—C2Exxxiv | 54 (8) |
O1xxix—Na—O1xxiv | 120.000 (1) | C2Dxxxviii—C2D—C2Exxxiv | 107 (8) |
O1xxv—Na—O1xxiv | 60.000 (1) | C2Dxxxviii—C2D—C2Exxxi | 83 (9) |
O1xxv—Na—O1xxvii | 120.000 (1) | C2Dvi—C2D—C2Exxxvii | 87 (10) |
O1xxvi—Na—O1xxv | 180.0 | C2Dxxxvii—C2D—C2Exxxi | 131 (10) |
O1xxviii—Na—O1xxvii | 120.000 (1) | C2Dvi—C2D—C2Exxxviii | 87 (10) |
O1xxvi—Na—O1xxvii | 60.000 (1) | C2Dxxxviii—C2D—C2Exxxii | 131 (10) |
O1xxix—Na—O1xxvi | 120.000 (1) | C2Exxxvii—C2D—C2B | 86 (10) |
O1xxviii—Na—O1xxiv | 60.000 (1) | C2Exxxviii—C2D—C2B | 86 (10) |
O1xxviii—Na—O1xxvi | 60.0 | C2Exxxviii—C2D—C2Dxxxviii | 118 (10) |
O1xxix—Na—O1xxvii | 60.000 (1) | C2Exxxviii—C2D—C2Dxxxvii | 58 (10) |
O1xxix—Na—O1xxv | 60.000 (1) | C2Exxxvii—C2D—C2Dxxxviii | 58 (10) |
O1xxvi—Na—O1xxiv | 120.000 (1) | C2Exxxvii—C2D—C2Dxxxvii | 118 (10) |
O1xxviii—Na—O1xxv | 120.000 (1) | C2Exxxi—C2D—C2Exxxii | 103 (10) |
O1xxiv—Na—O1xxvii | 180.0 | C2Exxxvii—C2D—C2Exxxii | 138 (10) |
O1xxix—Na—O1xxviii | 180.0 | C2Exxxviii—C2D—C2Exxxi | 138 (10) |
O1xxv—Na—C2Dxxxii | 100 (3) | C2Exxxviii—C2D—C2Exxxiv | 23 (8) |
O1xxiv—Na—C2Dxxxii | 90.00 (2) | C2Exxxviii—C2D—C2Exxxii | 36 (10) |
O1xxviii—Na—C2Dxxxii | 80 (3) | C2Exxxvii—C2D—C2Exxxi | 36 (10) |
O1xxiv—Na—C2Dxxxi | 100 (3) | C2Exxxvii—C2D—C2Exxxiv | 147 (10) |
O1xxiv—Na—C2Dxxx | 80 (3) | C2Exxxvii—C2D—C2Exxxviii | 170 (10) |
O1xxvii—Na—C2Dxxx | 100 (3) | C2Exxxi—C2D—C2Exxxiv | 120 (10) |
O1xxvi—Na—C2Dxxxii | 80 (3) | C2Exxxii—C2D—C2Exxxiv | 28 (7) |
O1xxix—Na—C2Dxxx | 100 (3) | C2Bvi—C2E—C2Bxxxiii | 60 (10) |
O1xxv—Na—C2Dxxx | 90.000 (9) | C2Bvi—C2E—C2Bxxxiv | 60 (10) |
O1xxvii—Na—C2Dxxxii | 90.000 (4) | C2Bxxxiv—C2E—C2Bxxxiii | 54 (10) |
O1xxix—Na—C2Dxxxii | 100 (3) | C2Bvi—C2E—C2C | 110 (10) |
O1xxviii—Na—C2Dxxx | 80 (3) | C2Bvi—C2E—C2Dxxxvi | 61 (9) |
O1xxvi—Na—C2Dxxxi | 90.000 (7) | C2Bvi—C2E—C2Dxxxv | 61 (9) |
O1xxviii—Na—C2Dxxxi | 100 (3) | C2Cviii—C2E—C2Bxxxiv | 123 (10) |
O1xxvi—Na—C2Dxxx | 90.000 (17) | C2C—C2E—C2Bxxxiii | 58 (9) |
O1xxv—Na—C2Dxxxi | 90.000 (16) | C2Cviii—C2E—C2Bxxxiii | 69 (10) |
O1xxvii—Na—C2Dxxxi | 80 (3) | C2Cvii—C2E—C2Bxxxiii | 123 (10) |
O1xxix—Na—C2Dxxxi | 80 (3) | C2Cvii—C2E—C2Bxxxiv | 69 (10) |
C2Dxxxi—Na—C2Dxxx | 180 (3) | C2Cvii—C2E—C2Bvi | 89 (10) |
C2Dxxxi—Na—C2Dxxxii | 19 (6) | C2Cviii—C2E—C2Bvi | 89 (10) |
C2Dxxx—Na—C2Dxxxii | 161 (6) | C2C—C2E—C2Bxxxiv | 58 (8) |
C2Bxxxiii—C2B—C2Bvi | 60.00 (2) | C2Cviii—C2E—C2Cvii | 165 (10) |
C2Bxxxiii—C2B—C2Bxxxiv | 60.00 (3) | C2Cviii—C2E—C2C | 97 (8) |
C2Bxxxiv—C2B—C2Bvi | 59.997 (19) | C2Cvii—C2E—C2C | 97 (8) |
C2D—C2B—C2Bxxxiii | 82 (10) | C2Cvii—C2E—C2Dxxxv | 142 (10) |
C2Dxxxii—C2B—C2Bxxxiv | 63 (10) | C2Cviii—C2E—C2Dxxxv | 47 (10) |
C2Dxxxi—C2B—C2Bxxxiv | 114 (10) | C2Cviii—C2E—C2Dxxxvii | 57 (10) |
C2Dviii—C2B—C2Bxxxiii | 82 (10) | C2Cvii—C2E—C2Dxxxvii | 120 (10) |
C2D—C2B—C2Bxxxiv | 82 (10) | C2Cvii—C2E—C2Dxxxviii | 57 (10) |
C2Dvii—C2B—C2Bxxxiii | 26 (10) | C2Cviii—C2E—C2Dxxxvi | 142 (10) |
C2Dxxxi—C2B—C2Bvi | 114 (10) | C2Cviii—C2E—C2Dxxxviii | 120 (10) |
C2Dviii—C2B—C2Bxxxiv | 26 (10) | C2Cvii—C2E—C2Dxxxvi | 47 (10) |
C2Dvi—C2B—C2Bvi | 63 (10) | C2Dxxxviii—C2E—C2Bxxxiv | 54 (9) |
C2Dxxxi—C2B—C2Bxxxiii | 63 (10) | C2Dxxxvii—C2E—C2Bxxxiii | 54 (9) |
C2Dviii—C2B—C2Bvi | 82 (10) | C2Dxxxv—C2E—C2Bxxxiii | 23 (10) |
C2D—C2B—C2Bvi | 26 (10) | C2Dxxxvii—C2E—C2Bxxxiv | 84 (10) |
C2Dvi—C2B—C2Bxxxiii | 114 (10) | C2Dxxxviii—C2E—C2Bvi | 33 (10) |
C2Dxxxii—C2B—C2Bxxxiii | 114 (10) | C2Dxxxviii—C2E—C2Bxxxiii | 84 (10) |
C2Dvi—C2B—C2Bxxxiv | 114 (10) | C2Dxxxvi—C2E—C2Bxxxiv | 23 (10) |
C2Dxxxii—C2B—C2Bvi | 114 (10) | C2Dxxxv—C2E—C2Bxxxiv | 76 (10) |
C2Dvii—C2B—C2Bxxxiv | 82 (10) | C2Dxxxvi—C2E—C2Bxxxiii | 76 (10) |
C2Dvii—C2B—C2Bvi | 82 (10) | C2Dxxxvii—C2E—C2Bvi | 33 (10) |
C2Dxxxi—C2B—C2Dviii | 120 (10) | C2Dxxxvii—C2E—C2C | 112 (10) |
C2Dxxxi—C2B—C2Dxxxii | 118 (10) | C2Dxxxviii—C2E—C2C | 112 (10) |
C2Dvi—C2B—C2Dvii | 120 (10) | C2Dxxxvi—C2E—C2C | 74 (10) |
C2Dviii—C2B—C2Dvii | 99 (10) | C2Dxxxv—C2E—C2C | 74 (10) |
C2Dvi—C2B—C2D | 37 (10) | C2Dxxxvi—C2E—C2Dxxxv | 96 (10) |
C2Dxxxi—C2B—C2D | 120 (10) | C2Dxxxviii—C2E—C2Dxxxv | 92 (10) |
C2D—C2B—C2Dviii | 99 (10) | C2Dxxxvii—C2E—C2Dxxxv | 41 (10) |
C2Dxxxii—C2B—C2Dviii | 37 (10) | C2Dxxxviii—C2E—C2Dxxxvi | 41 (10) |
C2Dxxxi—C2B—C2Dvii | 37 (10) | C2Dxxxvii—C2E—C2Dxxxvi | 92 (10) |
C2Dxxxi—C2B—C2Dvi | 118 (10) | C2Dxxxvii—C2E—C2Dxxxviii | 64 (10) |
C2Dxxxii—C2B—C2D | 120 (10) | C2Evii—C2E—C2Bxxxiv | 76 (3) |
C2Dvi—C2B—C2Dviii | 120 (10) | C2Eviii—C2E—C2Bxxxiv | 46 (10) |
C2Dxxxii—C2B—C2Dvi | 118 (10) | C2Evii—C2E—C2Bvi | 106 (10) |
C2D—C2B—C2Dvii | 99 (10) | C2Eviii—C2E—C2Bvi | 106 (10) |
C2Dxxxii—C2B—C2Dvii | 120 (10) | C2Evii—C2E—C2Bxxxiii | 46 (10) |
C2Dvi—C2B—C2Evi | 171 (10) | C2Eviii—C2E—C2Bxxxiii | 76 (3) |
C2Dxxxi—C2B—C2Evi | 60.3 (14) | C2Eviii—C2E—C2Cviii | 127 (7) |
C2Dxxxii—C2B—C2Evi | 60.3 (14) | C2Evii—C2E—C2Cvii | 127 (7) |
C2Dxxxii—C2B—C2Exxxi | 60.3 (14) | C2Eviii—C2E—C2C | 30.0 (3) |
C2Dxxxi—C2B—C2Exxxii | 60.3 (14) | C2Evii—C2E—C2Cviii | 67 (8) |
C2Dvi—C2B—C2Exxxii | 60.3 (14) | C2Eviii—C2E—C2Cvii | 67 (8) |
C2Dvi—C2B—C2Exxxi | 60.3 (14) | C2Evii—C2E—C2C | 30.0 (3) |
C2Dxxxi—C2B—C2Exxxi | 171 (10) | C2Evii—C2E—C2Dxxxvi | 97 (9) |
C2Dxxxii—C2B—C2Exxxii | 171 (10) | C2Eviii—C2E—C2Dxxxviii | 93 (10) |
C2Exxxi—C2B—C2Bxxxiv | 74 (10) | C2Eviii—C2E—C2Dxxxvii | 125 (10) |
C2Exxxii—C2B—C2Bvi | 74 (10) | C2Eviii—C2E—C2Dxxxv | 97 (9) |
C2Exxxi—C2B—C2Bxxxiii | 126 (10) | C2Evii—C2E—C2Dxxxviii | 125 (10) |
C2Exxxi—C2B—C2Bvi | 74 (10) | C2Evii—C2E—C2Dxxxv | 52 (7) |
C2Evi—C2B—C2Bxxxiv | 74 (10) | C2Eviii—C2E—C2Dxxxvi | 52 (7) |
C2Evi—C2B—C2Bvi | 126 (10) | C2Evii—C2E—C2Dxxxvii | 93 (10) |
C2Exxxii—C2B—C2Bxxxiii | 74 (10) | C2Eviii—C2E—C2Evii | 59.99 (5) |
Symmetry codes: (i) y−1/4, −x, z+3/4; (ii) −x, y−1/4, z+3/4; (iii) −x+1/4, −y+1/4, z; (iv) −z+1/4, −y+1/4, x; (v) x−1/2, y−1/2, z; (vi) −x+3/4, −y+3/4, z; (vii) z, x, y; (viii) y, z, x; (ix) −y+1, x−1/4, z−1/4; (x) y−1/4, −x+1, z−1/4; (xi) −y+1/4, x, −z+1/4; (xii) y, −x+1/4, −z+1/4; (xiii) −y, x+1/4, z−3/4; (xiv) y, −z+3/4, −x−1/4; (xv) −y+1/2, x−1/4, z−3/4; (xvi) z, −y+1/4, −x+1/4; (xvii) x, y−1/2, z−1/2; (xviii) −x+1/2, −y+1/2, −z+1; (xix) z, x+1/2, y+1/2; (xx) −z+1, −x+1/2, −y+1/2; (xxi) x+1/2, y+1/2, z; (xxii) −y+1/2, −z+1, −x+1/2; (xxiii) y+1/2, z, x+1/2; (xxiv) −y+3/4, x+1/2, −z+1/4; (xxv) x+1/2, −y+3/4, −z+1/4; (xxvi) −x+1/2, y+1/4, z+3/4; (xxvii) y+1/4, −x+1/2, z+3/4; (xxviii) z+3/4, y+1/4, −x+1/2; (xxix) −z+1/4, −y+3/4, x+1/2; (xxx) −z+1, y+1/4, x+1/4; (xxxi) z, −y+3/4, −x+3/4; (xxxii) −x+3/4, z, −y+3/4; (xxxiii) y, −x+3/4, −z+3/4; (xxxiv) −y+3/4, x, −z+3/4; (xxxv) −x+3/4, −z+3/4, y; (xxxvi) −z+3/4, −y+3/4, x; (xxxvii) y, −z+3/4, −x+3/4; (xxxviii) −z+3/4, x, −y+3/4. |
0.02(C16O272Si136)·0.02(C27.48) | Z = 60 |
Mr = 143.59 | F(000) = 4301 |
Monoclinic, A2/n | Dx = 1.973 Mg m−3 |
a = 23.7054 (2) Å | Mo Kα radiation, λ = 0.71073 Å |
b = 13.6861 (11) Å | Cell parameters from 62616 reflections |
c = 23.7051 (2) Å | θ = 3–67° |
β = 109.47° | µ = 0.71 mm−1 |
V = 7251.0 (6) Å3 | T = 100 K |
Platelet diffractometer | θmax = 33.5°, θmin = 2.1° |
93896 measured reflections | h = −20→36 |
19227 independent reflections | k = −20→21 |
8811 reflections with I > 2σ(I) | l = −36→28 |
Rint = 0.138 |
Refinement on F2 | 533 parameters |
Least-squares matrix: full | 0 restraints |
R[F2 > 2σ(F2)] = 0.071 | w = 1/[σ2(Fo2) + (0.1P)2] where P = (Fo2 + 2Fc2)/3 |
wR(F2) = 0.199 | (Δ/σ)max = 0.025 |
S = 0.90 | Δρmax = 1.20 e Å−3 |
19227 reflections | Δρmin = −1.11 e Å−3 |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
Refinement. Refined as a 2-component twin. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1A | 0.01341 (6) | 0.99956 (9) | 0.14467 (5) | 0.0095 (2) | |
Si1B | 0.18522 (6) | 0.19914 (9) | 0.25440 (6) | 0.0118 (2) | |
Si1C | 0.18586 (6) | 0.78597 (9) | 0.25739 (6) | 0.0107 (2) | |
Si1D | 0.99718 (6) | 0.31340 (10) | 0.43520 (6) | 0.0130 (2) | |
Si1E | 0.99716 (6) | 0.69140 (10) | 0.43300 (6) | 0.0120 (2) | |
Si1F | 0.18483 (6) | 0.88640 (10) | 0.57130 (6) | 0.0131 (2) | |
Si1G | 0.18689 (6) | 0.11614 (10) | 0.56420 (6) | 0.0128 (2) | |
Si1H | 0.18310 (6) | 0.31299 (10) | 0.36981 (6) | 0.0131 (2) | |
Si1I | 0.18257 (6) | 0.68932 (10) | 0.37828 (6) | 0.0132 (2) | |
Si1J | 0.13160 (6) | 0.99430 (10) | 0.25943 (6) | 0.0122 (2) | |
Si1K | 0.11135 (6) | 0.81758 (10) | 0.44047 (6) | 0.0132 (2) | |
Si1L | 0.11068 (6) | 0.19369 (10) | 0.43512 (6) | 0.0129 (2) | |
Si2A | 0.89261 (6) | 0.99590 (10) | 0.17166 (6) | 0.0115 (2) | |
Si2B | 0.10972 (6) | 0.67832 (9) | 0.14085 (6) | 0.0107 (2) | |
Si2C | 0.89420 (6) | 0.18422 (10) | 0.35552 (6) | 0.0129 (2) | |
Si2D | 0.07428 (6) | 0.00237 (10) | 0.35980 (6) | 0.0119 (2) | |
Si3 | 0.93740 (6) | 0.99870 (10) | 0.30821 (6) | 0.0140 (2) | |
O1A | 0.2500 | 0.2157 (5) | 0.2500 | 0.0318 (15) | |
O1B | 0.2500 | 0.7750 (5) | 0.2500 | 0.0258 (13) | |
O1C | 0.0110 (3) | 0.9016 (4) | 0.1087 (2) | 0.0386 (12) | |
O1D | 0.2494 (2) | 0.8380 (4) | 0.5926 (3) | 0.0404 (12) | |
O1E | 0.9987 (2) | 0.3414 (3) | 0.50131 (17) | 0.0252 (8) | |
O1F | 0.3559 (2) | 0.6537 (4) | 0.49953 (19) | 0.0329 (11) | |
O1G | 0.1458 (2) | 0.8364 (4) | 0.5100 (2) | 0.0352 (11) | |
O1H | 0.1578 (2) | 0.2461 (4) | 0.4108 (2) | 0.0348 (11) | |
O1I | 0.1705 (2) | 0.8980 (3) | 0.2588 (2) | 0.0304 (10) | |
O1J | 0.1560 (2) | 0.7701 (4) | 0.4115 (2) | 0.0319 (10) | |
O1K | 0.0172 (2) | 0.0909 (3) | 0.1051 (2) | 0.0315 (10) | |
O1L | 0.2521 (2) | 0.1616 (4) | 0.5772 (2) | 0.0274 (9) | |
O1M | 0.1745 (2) | 0.0853 (3) | 0.2597 (2) | 0.0303 (10) | |
O2A | 0.1353 (2) | 0.7358 (3) | 0.20223 (19) | 0.0269 (9) | |
O2B | 0.8643 (2) | 0.2636 (4) | 0.3057 (2) | 0.0391 (12) | |
O2C | 0.8603 (3) | 0.9030 (4) | 0.1336 (2) | 0.0386 (12) | |
O2D | 0.0603 (2) | 0.7404 (4) | 0.0922 (2) | 0.0369 (12) | |
O2E | 0.9451 (2) | 0.2347 (4) | 0.4093 (2) | 0.0336 (11) | |
O2F | 0.0796 (3) | 0.1061 (4) | 0.3914 (2) | 0.0372 (11) | |
O2G | 0.8464 (2) | 0.1343 (4) | 0.37900 (19) | 0.0317 (11) | |
O2H | 0.1172 (2) | 0.9952 (4) | 0.3209 (2) | 0.0340 (10) | |
O2I | 0.0891 (3) | 0.9208 (4) | 0.4097 (2) | 0.0410 (14) | |
O2J | 0.1621 (2) | 0.6530 (4) | 0.11566 (19) | 0.0316 (10) | |
O2K | 0.8555 (3) | 0.0904 (4) | 0.1461 (3) | 0.0562 (18) | |
O2L | 0.9567 (2) | 0.0093 (4) | 0.1651 (2) | 0.0368 (12) | |
O3A | 0.0716 (2) | 0.9980 (3) | 0.2034 (2) | 0.0273 (8) | |
O3B | 0.1902 (2) | 0.0006 (3) | 0.5633 (3) | 0.0345 (10) | |
O3C | 0.9405 (2) | 0.2307 (4) | 0.0631 (2) | 0.0310 (10) | |
O3D | 0.0558 (2) | 0.7480 (4) | 0.4343 (2) | 0.0340 (11) | |
O3E | 0.1861 (2) | 0.7328 (3) | 0.31789 (19) | 0.0282 (9) | |
O3F | 0.1790 (3) | 0.2561 (4) | 0.3106 (2) | 0.0386 (13) | |
O4A | 0.00697 (19) | 0.9898 (3) | 0.3161 (2) | 0.0267 (9) | |
O4B | 0.9252 (3) | 0.1057 (4) | 0.3258 (3) | 0.0485 (15) | |
O4C | 0.8991 (2) | 0.9794 (4) | 0.23960 (19) | 0.0367 (12) | |
O4D | 0.9208 (3) | 0.9215 (4) | 0.3497 (2) | 0.0434 (14) | |
C1A | 0.0000 | 0.2500 | 0.2500 | 0.038 (2) | |
C1B | 0.0000 | 0.2500 | 0.7500 | 0.042 (3) | |
C1C | 0.7500 | 0.0016 (8) | 0.2500 | 0.039 (2) | |
C1D | 0.0000 | 0.0000 | 0.5000 | 0.037 (2) | |
C2A | 0.8139 (9) | 0.4147 (14) | 0.4076 (9) | 0.050* | 0.50 (2) |
C2B | 0.3013 (13) | 0.907 (2) | 0.4040 (13) | 0.050* | 0.35 (2) |
C2C | 0.8228 (15) | 0.096 (3) | −0.0404 (15) | 0.050* | 0.29 (2) |
C2D | 0.2713 (18) | 0.070 (3) | 0.4424 (17) | 0.050* | 0.26 (2) |
C2E | 0.1821 (15) | 0.004 (3) | 0.1213 (16) | 0.050* | 0.30 (3) |
C2F | 0.1843 (15) | 0.948 (3) | 0.1162 (15) | 0.050* | 0.29 (3) |
C2G | 0.1795 (14) | 0.585 (2) | 0.5357 (13) | 0.050* | 0.32 (2) |
C2H | 0.257 (2) | −0.004 (3) | 0.455 (2) | 0.050* | 0.21 (3) |
C2I | 0.2938 (14) | −0.012 (2) | 0.4805 (14) | 0.050* | 0.33 (3) |
C2J | 0.282 (2) | 0.925 (3) | 0.459 (2) | 0.050* | 0.22 (2) |
C2K | 0.871 (3) | 0.507 (4) | 0.451 (3) | 0.050* | 0.17 (3) |
C2L | 0.875 (2) | 0.499 (3) | 0.480 (3) | 0.050* | 0.20 (3) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Si1A | 0.0147 (5) | 0.0076 (5) | 0.0090 (5) | −0.0011 (5) | 0.0079 (4) | −0.0002 (4) |
Si1B | 0.0128 (6) | 0.0110 (5) | 0.0133 (6) | 0.0004 (4) | 0.0066 (5) | 0.0019 (4) |
Si1C | 0.0119 (6) | 0.0116 (5) | 0.0105 (5) | −0.0004 (4) | 0.0062 (5) | −0.0018 (4) |
Si1D | 0.0176 (7) | 0.0114 (6) | 0.0089 (5) | −0.0030 (5) | 0.0029 (5) | 0.0024 (4) |
Si1E | 0.0166 (6) | 0.0097 (5) | 0.0091 (5) | 0.0008 (5) | 0.0033 (5) | −0.0030 (4) |
Si1F | 0.0125 (6) | 0.0148 (6) | 0.0122 (6) | 0.0007 (5) | 0.0042 (5) | 0.0016 (4) |
Si1G | 0.0143 (6) | 0.0156 (6) | 0.0099 (5) | −0.0011 (5) | 0.0057 (5) | −0.0019 (4) |
Si1H | 0.0142 (6) | 0.0094 (5) | 0.0188 (6) | −0.0001 (5) | 0.0095 (5) | 0.0005 (5) |
Si1I | 0.0142 (6) | 0.0102 (5) | 0.0174 (6) | −0.0008 (5) | 0.0082 (5) | 0.0005 (4) |
Si1J | 0.0155 (5) | 0.0106 (5) | 0.0135 (5) | −0.0011 (5) | 0.0087 (4) | −0.0010 (4) |
Si1K | 0.0164 (6) | 0.0140 (6) | 0.0099 (5) | 0.0026 (5) | 0.0055 (5) | 0.0022 (4) |
Si1L | 0.0165 (6) | 0.0138 (6) | 0.0099 (5) | −0.0041 (5) | 0.0063 (5) | −0.0014 (4) |
Si2A | 0.0109 (5) | 0.0119 (5) | 0.0126 (5) | 0.0004 (5) | 0.0053 (4) | 0.0026 (4) |
Si2B | 0.0124 (6) | 0.0112 (5) | 0.0091 (5) | −0.0006 (5) | 0.0043 (4) | 0.0013 (4) |
Si2C | 0.0155 (6) | 0.0113 (6) | 0.0120 (5) | −0.0006 (5) | 0.0046 (5) | −0.0005 (4) |
Si2D | 0.0171 (6) | 0.0111 (5) | 0.0083 (5) | 0.0018 (5) | 0.0052 (4) | 0.0008 (4) |
Si3 | 0.0181 (6) | 0.0128 (5) | 0.0133 (6) | −0.0038 (5) | 0.0083 (4) | −0.0011 (5) |
O1A | 0.014 (3) | 0.027 (3) | 0.061 (4) | 0.000 | 0.021 (3) | 0.000 |
O1B | 0.020 (3) | 0.026 (3) | 0.040 (3) | 0.000 | 0.020 (3) | 0.000 |
O1C | 0.063 (4) | 0.022 (2) | 0.030 (2) | −0.003 (2) | 0.015 (2) | −0.0184 (18) |
O1D | 0.021 (2) | 0.047 (3) | 0.051 (3) | 0.017 (2) | 0.010 (2) | 0.002 (2) |
O1E | 0.040 (2) | 0.0235 (19) | 0.0130 (16) | 0.0024 (18) | 0.0104 (15) | 0.0011 (14) |
O1F | 0.038 (3) | 0.042 (3) | 0.0156 (19) | −0.006 (2) | 0.0052 (18) | −0.0112 (18) |
O1G | 0.045 (3) | 0.038 (3) | 0.019 (2) | −0.008 (2) | 0.006 (2) | −0.0080 (18) |
O1H | 0.037 (3) | 0.039 (3) | 0.037 (3) | −0.010 (2) | 0.025 (2) | 0.008 (2) |
O1I | 0.029 (2) | 0.0177 (19) | 0.044 (3) | 0.0039 (17) | 0.012 (2) | −0.0035 (18) |
O1J | 0.035 (3) | 0.033 (3) | 0.035 (2) | 0.005 (2) | 0.022 (2) | −0.0073 (19) |
O1K | 0.047 (3) | 0.021 (2) | 0.025 (2) | −0.0019 (19) | 0.010 (2) | 0.0166 (16) |
O1L | 0.022 (2) | 0.035 (2) | 0.027 (2) | −0.0101 (18) | 0.0103 (18) | −0.0075 (17) |
O1M | 0.027 (2) | 0.0173 (19) | 0.047 (3) | −0.0054 (16) | 0.013 (2) | 0.0020 (18) |
O2A | 0.027 (2) | 0.033 (2) | 0.022 (2) | −0.0051 (18) | 0.0097 (18) | −0.0115 (17) |
O2B | 0.028 (2) | 0.048 (3) | 0.033 (3) | −0.002 (2) | −0.001 (2) | 0.025 (2) |
O2C | 0.050 (3) | 0.032 (3) | 0.038 (3) | −0.021 (2) | 0.019 (2) | −0.007 (2) |
O2D | 0.037 (3) | 0.044 (3) | 0.024 (2) | 0.026 (2) | 0.003 (2) | 0.008 (2) |
O2E | 0.042 (3) | 0.034 (3) | 0.0186 (19) | −0.021 (2) | 0.0015 (19) | 0.0043 (17) |
O2F | 0.047 (3) | 0.028 (2) | 0.037 (3) | −0.010 (2) | 0.015 (2) | −0.015 (2) |
O2G | 0.031 (2) | 0.045 (3) | 0.023 (2) | −0.020 (2) | 0.0148 (19) | −0.0055 (18) |
O2H | 0.032 (2) | 0.053 (3) | 0.022 (2) | 0.003 (2) | 0.0164 (18) | −0.001 (2) |
O2I | 0.061 (4) | 0.032 (3) | 0.039 (3) | 0.024 (2) | 0.029 (3) | 0.022 (2) |
O2J | 0.023 (2) | 0.052 (3) | 0.0207 (19) | 0.005 (2) | 0.0091 (17) | −0.0077 (19) |
O2K | 0.074 (5) | 0.038 (3) | 0.059 (4) | 0.038 (3) | 0.024 (4) | 0.011 (3) |
O2L | 0.021 (2) | 0.067 (4) | 0.030 (2) | −0.006 (2) | 0.0183 (19) | −0.002 (2) |
O3A | 0.0245 (19) | 0.030 (2) | 0.0217 (19) | −0.0019 (18) | 0.0004 (15) | 0.0038 (16) |
O3B | 0.039 (3) | 0.0188 (18) | 0.050 (3) | −0.0027 (19) | 0.020 (2) | 0.0033 (19) |
O3C | 0.028 (2) | 0.038 (3) | 0.029 (2) | 0.0135 (19) | 0.0127 (19) | 0.0013 (18) |
O3D | 0.030 (2) | 0.045 (3) | 0.032 (2) | −0.019 (2) | 0.017 (2) | −0.010 (2) |
O3E | 0.038 (3) | 0.034 (2) | 0.0191 (19) | 0.0013 (19) | 0.0186 (19) | 0.0081 (16) |
O3F | 0.059 (4) | 0.032 (3) | 0.037 (3) | −0.012 (2) | 0.033 (3) | −0.015 (2) |
O4A | 0.0171 (17) | 0.041 (3) | 0.0214 (19) | −0.0018 (17) | 0.0056 (15) | −0.0071 (17) |
O4B | 0.056 (4) | 0.021 (2) | 0.088 (5) | 0.001 (2) | 0.050 (4) | −0.009 (3) |
O4C | 0.023 (2) | 0.073 (4) | 0.0140 (18) | −0.016 (2) | 0.0062 (16) | 0.004 (2) |
O4D | 0.068 (4) | 0.039 (3) | 0.022 (2) | −0.034 (3) | 0.014 (2) | 0.0020 (19) |
C1A | 0.043 (6) | 0.041 (5) | 0.031 (5) | −0.006 (4) | 0.014 (4) | 0.012 (4) |
C1B | 0.059 (7) | 0.027 (5) | 0.052 (6) | 0.008 (5) | 0.031 (6) | 0.001 (4) |
C1C | 0.036 (5) | 0.045 (6) | 0.028 (4) | 0.000 | 0.001 (4) | 0.000 |
C1D | 0.055 (6) | 0.042 (5) | 0.024 (4) | −0.002 (5) | 0.026 (4) | −0.005 (4) |
Si1A—O1C | 1.580 (4) | O2I—C1Biii | 4.351 (6) |
Si1A—O1Ki | 1.584 (4) | O2I—C1Di | 3.637 (5) |
Si1A—O2Lii | 1.581 (4) | O2J—Si1Giii | 1.602 (4) |
Si1A—O3A | 1.600 (4) | O2J—C1Civ | 3.812 (8) |
Si1A—C1Ai | 4.3143 (12) | O2J—C1Diii | 4.432 (5) |
Si1A—C1Biii | 4.3047 (12) | O2K—Si1Hiv | 1.581 (5) |
Si1B—O1A | 1.5898 (16) | O2K—Si2Axvi | 1.567 (5) |
Si1B—O1M | 1.591 (4) | O2K—C1Avi | 4.116 (8) |
Si1B—O2Biv | 1.597 (5) | O2K—C1C | 4.232 (7) |
Si1B—O3F | 1.592 (4) | O2L—Si1Axix | 1.581 (4) |
Si1B—C1A | 4.4122 (14) | O2L—Si2Axvi | 1.587 (4) |
Si1B—C1Civ | 4.388 (11) | O2L—C1Avi | 3.819 (5) |
Si1C—O1B | 1.5945 (14) | O2L—C1Bxx | 4.039 (6) |
Si1C—O1I | 1.578 (4) | O3A—C1Ai | 4.153 (5) |
Si1C—O2A | 1.604 (5) | O3A—C1Biii | 4.107 (4) |
Si1C—O3E | 1.606 (4) | O3B—Si1Fxvi | 1.585 (5) |
Si1C—C1Biii | 4.3784 (13) | O3B—C1Cxiv | 4.173 (6) |
Si1C—C1Civ | 4.244 (11) | O3B—C1D | 4.252 (5) |
Si1D—O1E | 1.602 (4) | O3C—Si1Dv | 1.585 (5) |
Si1D—O1Kiv | 1.589 (4) | O3C—Si1Liv | 1.604 (5) |
Si1D—O2E | 1.599 (5) | O3C—C1Avi | 4.186 (5) |
Si1D—O3Cv | 1.585 (5) | O3C—C1Dix | 4.384 (5) |
Si1D—C1Avi | 4.4973 (12) | O3D—Si1Exxi | 1.582 (4) |
Si1D—C1Dvi | 4.5489 (13) | O3D—C1Biii | 4.122 (5) |
Si1E—O1Cvii | 1.583 (4) | O3D—C1Di | 4.176 (5) |
Si1E—O1Eviii | 1.592 (4) | O3E—C1Biii | 4.168 (5) |
Si1E—O2Dvii | 1.594 (5) | O3E—C1Civ | 4.099 (10) |
Si1E—O3Dvi | 1.582 (4) | O3F—C1A | 4.002 (6) |
Si1E—C1Bix | 4.4340 (12) | O3F—C1Civ | 4.184 (10) |
Si1E—C1Dx | 4.5049 (13) | O4A—Si2Di | 1.596 (4) |
Si1F—O1D | 1.588 (5) | O4A—Si3xxi | 1.601 (4) |
Si1F—O1G | 1.594 (5) | O4A—C1Ai | 3.872 (5) |
Si1F—O2Gxi | 1.612 (4) | O4A—C1Biii | 3.616 (4) |
Si1F—O3Bi | 1.585 (5) | O4A—C1Di | 4.420 (4) |
Si1F—C1Cxi | 4.280 (4) | O4B—Si3xvi | 1.577 (5) |
Si1F—C1Di | 4.4199 (16) | O4B—C1Avi | 3.522 (5) |
Si1G—O1Fxii | 1.598 (5) | O4B—C1C | 4.187 (8) |
Si1G—O1L | 1.598 (4) | O4B—C1Dvi | 4.172 (7) |
Si1G—O2Jxiii | 1.602 (4) | O4C—C1Ax | 4.370 (5) |
Si1G—O3B | 1.583 (5) | O4C—C1Bix | 3.905 (6) |
Si1G—C1Cxiv | 4.454 (4) | O4C—C1Ci | 3.637 (5) |
Si1G—C1D | 4.4694 (16) | O4D—Si2Bvii | 1.595 (5) |
Si1H—O1Dxii | 1.587 (5) | O4D—C1Bix | 4.193 (6) |
Si1H—O1H | 1.591 (4) | O4D—C1Ci | 4.098 (7) |
Si1H—O2Kiv | 1.581 (5) | O4D—C1Dx | 3.594 (5) |
Si1H—O3F | 1.580 (5) | C1A—O2Bxxi | 3.867 (5) |
Si1H—C1A | 4.4081 (16) | C1A—O2Biv | 3.867 (5) |
Si1H—C1Civ | 4.475 (7) | C1A—O2Fxxii | 3.803 (6) |
Si1I—O1J | 1.603 (4) | C1A—O2Kiv | 4.116 (8) |
Si1I—O1Lxv | 1.602 (5) | C1A—O2Kxxi | 4.116 (8) |
Si1I—O2Cvii | 1.587 (5) | C1A—O2Liv | 3.819 (5) |
Si1I—O3E | 1.578 (4) | C1A—O2Lxxi | 3.819 (5) |
Si1I—C1Biii | 4.4602 (16) | C1A—O3Axxiii | 4.153 (5) |
Si1I—C1Civ | 4.676 (7) | C1A—O3Fxxii | 4.002 (6) |
Si1J—O1I | 1.612 (5) | C1A—O4Axvi | 3.872 (5) |
Si1J—O1Mi | 1.607 (4) | C1A—O4Axxiii | 3.872 (5) |
Si1J—O2H | 1.604 (4) | C1A—O4Biv | 3.522 (5) |
Si1J—O3A | 1.591 (4) | C1A—O4Bxxi | 3.522 (5) |
Si1J—C1Ai | 4.6437 (18) | C1B—Si3xi | 4.1300 (15) |
Si1J—C1Biii | 4.5273 (18) | C1B—O1Cxiii | 4.023 (5) |
Si1K—O1G | 1.598 (5) | C1B—O1Cxxiv | 4.023 (5) |
Si1K—O1J | 1.580 (4) | C1B—O2Axxiv | 3.745 (4) |
Si1K—O2I | 1.597 (5) | C1B—O2Axiii | 3.745 (4) |
Si1K—O3D | 1.593 (5) | C1B—O2Cxxv | 4.107 (6) |
Si1K—C1Biii | 4.5017 (14) | C1B—O2Cxi | 4.107 (6) |
Si1K—C1Di | 4.2042 (15) | C1B—O2Lxxvi | 4.039 (6) |
Si1L—O1Fxii | 1.584 (5) | C1B—O2Lxiv | 4.039 (6) |
Si1L—O1H | 1.589 (4) | C1B—O3Axiii | 4.107 (4) |
Si1L—O2F | 1.594 (5) | C1B—O3Axxiv | 4.107 (4) |
Si1L—O3Civ | 1.604 (5) | C1B—O4Axxiv | 3.616 (5) |
Si1L—C1A | 4.3657 (14) | C1B—O4Axiii | 3.616 (5) |
Si1L—C1D | 4.3550 (15) | C1B—O4Cxi | 3.905 (6) |
Si2A—O2C | 1.599 (5) | C1B—O4Cxxv | 3.905 (6) |
Si2A—O2Ki | 1.567 (5) | C1C—O1Aiv | 3.869 (14) |
Si2A—O2Li | 1.587 (4) | C1C—O1Biv | 3.786 (13) |
Si2A—O4C | 1.582 (4) | C1C—O2Axxvii | 4.145 (10) |
Si2A—C1Ax | 4.3441 (17) | C1C—O2Aiv | 4.145 (10) |
Si2A—C1Bix | 4.2549 (17) | C1C—O2Gxxviii | 3.635 (7) |
Si2A—C1Ci | 4.3668 (12) | C1C—O2Jxxvii | 3.812 (8) |
Si2B—O2A | 1.586 (4) | C1C—O2Jiv | 3.812 (8) |
Si2B—O2D | 1.589 (5) | C1C—O3Exxvii | 4.099 (10) |
Si2B—O2J | 1.585 (4) | C1C—O3Eiv | 4.099 (10) |
Si2B—O4Dvii | 1.596 (5) | C1C—O3Fiv | 4.184 (10) |
Si2B—C1Biii | 4.3484 (12) | C1C—O4Cxvi | 3.637 (5) |
Si2B—C1Civ | 4.252 (7) | C1C—O4Cxxix | 3.637 (5) |
Si2B—C1Diii | 4.2521 (16) | C1C—O4Dxvi | 4.098 (7) |
Si2C—O2B | 1.587 (5) | C1C—O4Dxxix | 4.098 (7) |
Si2C—O2E | 1.591 (5) | C1D—O1Fxxx | 4.009 (5) |
Si2C—O2G | 1.575 (4) | C1D—O1Fxii | 4.009 (5) |
Si2C—O4B | 1.591 (5) | C1D—O1Gxxiv | 4.058 (6) |
Si2C—C1Avi | 4.1879 (12) | C1D—O1Gxvi | 4.058 (6) |
Si2C—C1C | 4.300 (7) | C1D—O2Dxiii | 3.944 (6) |
Si2C—C1Dvi | 4.3187 (16) | C1D—O2Dxxii | 3.944 (6) |
Si2D—O2F | 1.591 (5) | C1D—O2Exiv | 3.843 (5) |
Si2D—O2Hxvi | 1.587 (4) | C1D—O2Exxi | 3.843 (5) |
Si2D—O2Ixvi | 1.579 (5) | C1D—O2Fxxxi | 3.942 (5) |
Si2D—O4Axvi | 1.596 (4) | C1D—O2Ixvi | 3.637 (5) |
Si2D—C1A | 4.2786 (15) | C1D—O2Ixxiv | 3.637 (5) |
Si2D—C1Bxvii | 4.3301 (15) | C1D—O4Bxiv | 4.172 (7) |
Si2D—C1D | 4.2482 (12) | C1D—O4Dxxxii | 3.594 (5) |
Si3—O4Avi | 1.601 (4) | C1D—O4Dxi | 3.594 (5) |
Si3—O4Bi | 1.577 (5) | C2A—C2Dxxvii | 1.52 (4) |
Si3—O4C | 1.598 (5) | C2A—C2Eiv | 1.33 (4) |
Si3—O4D | 1.581 (4) | C2A—C2Fvii | 1.96 (4) |
Si3—C1Ax | 4.1593 (15) | C2A—C2Gxi | 1.30 (3) |
Si3—C1Bix | 4.1300 (15) | C2A—C2K | 1.89 (6) |
Si3—C1Ci | 4.1899 (14) | C2B—C2Cxxxiii | 1.24 (4) |
Si3—C1Dx | 4.2865 (14) | C2B—C2Exxxiv | 1.56 (5) |
O1A—Si1Bxviii | 1.5898 (16) | C2B—C2Fxviii | 0.88 (4) |
O1A—C1Civ | 3.869 (14) | C2B—C2J | 1.54 (5) |
O1B—Si1Cxviii | 1.5945 (14) | C2C—C2Bxxxv | 1.24 (4) |
O1B—C1Civ | 3.786 (13) | C2C—C2Fxxxvi | 1.85 (5) |
O1C—Si1Evii | 1.583 (4) | C2C—C2Ixxxvii | 1.50 (4) |
O1C—C1Biii | 4.023 (5) | C2C—C2Jxxxv | 1.00 (5) |
O1D—Si1Hxv | 1.587 (5) | C2C—C2Kxvii | 1.73 (7) |
O1D—C1Cxi | 4.325 (8) | C2C—C2Lxvii | 1.77 (6) |
O1E—Si1Eviii | 1.592 (4) | C2D—C2Axxx | 1.52 (4) |
O1F—Si1Gxv | 1.598 (5) | C2D—C2Exviii | 2.33 (5) |
O1F—Si1Lxv | 1.584 (5) | C2D—C2Gxii | 1.13 (5) |
O1F—C1Dxv | 4.009 (5) | C2D—C2H | 1.13 (6) |
O1G—C1Di | 4.058 (6) | C2D—C2I | 1.43 (5) |
O1H—C1A | 4.362 (5) | C2E—C2Aiv | 1.33 (4) |
O1I—C1Biii | 4.463 (5) | C2E—C2Bxxxviii | 1.56 (5) |
O1J—C1Biii | 4.355 (5) | C2E—C2Dxviii | 2.33 (5) |
O1K—Si1Axvi | 1.584 (4) | C2E—C2Fxvi | 0.77 (4) |
O1K—Si1Div | 1.589 (4) | C2F—C2Avii | 1.96 (4) |
O1K—C1A | 4.200 (5) | C2F—C2Bxviii | 0.88 (4) |
O1L—Si1Ixii | 1.602 (5) | C2F—C2Cxxxvi | 1.85 (5) |
O1M—Si1Jxvi | 1.607 (4) | C2F—C2Ei | 0.77 (4) |
O1M—C1A | 4.649 (5) | C2F—C2Kvii | 1.79 (8) |
O2A—C1Biii | 3.745 (4) | C2G—C2Axi | 1.30 (3) |
O2A—C1Civ | 4.145 (10) | C2G—C2Dxv | 1.13 (5) |
O2B—Si1Biv | 1.597 (5) | C2G—C2Hxv | 1.88 (6) |
O2B—C1Avi | 3.867 (5) | C2G—C2Ixv | 1.57 (4) |
O2B—C1C | 4.422 (11) | C2G—C2Kxi | 1.84 (7) |
O2C—Si1Ivii | 1.587 (5) | C2G—C2Lxi | 1.67 (6) |
O2C—C1Bix | 4.107 (6) | C2H—C2Gxii | 1.88 (6) |
O2C—C1Ci | 4.593 (6) | C2H—C2I | 0.89 (6) |
O2D—Si1Evii | 1.594 (5) | C2H—C2Jxvi | 1.13 (6) |
O2D—C1Biii | 4.430 (5) | C2I—C2Cxxxix | 1.50 (4) |
O2D—C1Diii | 3.944 (6) | C2I—C2Gxii | 1.57 (4) |
O2E—C1Avi | 4.390 (4) | C2I—C2Jxvi | 0.98 (5) |
O2E—C1Dvi | 3.843 (5) | C2J—C2Cxxxiii | 1.00 (5) |
O2F—C1A | 3.803 (6) | C2J—C2Hi | 1.13 (6) |
O2F—C1D | 3.942 (5) | C2J—C2Ii | 0.98 (5) |
O2G—Si1Fxi | 1.612 (4) | C2K—C2Cxl | 1.73 (7) |
O2G—C1C | 3.635 (7) | C2K—C2Fvii | 1.79 (8) |
O2G—C1Dvi | 4.230 (5) | C2K—C2Gxi | 1.84 (7) |
O2H—Si2Di | 1.587 (4) | C2K—C2L | 0.68 (7) |
O2H—C1Ai | 4.425 (5) | C2L—C2Cxl | 1.77 (6) |
O2H—C1Biii | 4.323 (5) | C2L—C2Gxi | 1.68 (6) |
O2I—Si2Di | 1.579 (5) | ||
O1C—Si1A—O1Ki | 110.4 (3) | O2Fxxii—C1A—O3F | 117.45 (11) |
O1C—Si1A—O2Lii | 110.9 (3) | O2Fxxii—C1A—O3Fxxii | 62.55 (11) |
O1C—Si1A—O3A | 108.9 (3) | O2F—C1A—O3Fxxii | 117.45 (11) |
O1C—Si1A—C1Ai | 172.1 (2) | O2F—C1A—O3F | 62.55 (11) |
O1C—Si1A—C1Biii | 69.1 (2) | O2Kiv—C1A—O2Kxxi | 180.0 |
O1Ki—Si1A—O2Lii | 109.8 (3) | O2Kxxi—C1A—O3Axxiii | 105.53 (9) |
O1Ki—Si1A—O3A | 108.9 (3) | O2Kiv—C1A—O3Axxiii | 74.47 (9) |
O1Ki—Si1A—C1Ai | 75.25 (18) | O2Liv—C1A—O2F | 90.85 (11) |
O1Ki—Si1A—C1Biii | 179.0 (2) | O2Lxxi—C1A—O2Fxxii | 90.86 (11) |
O2Lii—Si1A—O3A | 108.0 (3) | O2Liv—C1A—O2Fxxii | 89.14 (11) |
O2Lii—Si1A—C1Ai | 61.4 (2) | O2Lxxi—C1A—O2F | 89.15 (11) |
O2Lii—Si1A—C1Biii | 69.7 (2) | O2Liv—C1A—O2Kiv | 37.13 (10) |
O3A—Si1A—C1Ai | 73.49 (18) | O2Lxxi—C1A—O2Kxxi | 37.13 (10) |
O3A—Si1A—C1Biii | 72.15 (16) | O2Lxxi—C1A—O2Kiv | 142.87 (10) |
C1Biii—Si1A—C1Ai | 105.11 (2) | O2Liv—C1A—O2Kxxi | 142.87 (10) |
O1A—Si1B—O2Biv | 109.6 (2) | O2Liv—C1A—O2Lxxi | 180.00 (9) |
O1A—Si1B—C1A | 162.1 (2) | O2Liv—C1A—O3Axxiii | 37.37 (9) |
O1A—Si1B—C1Civ | 60.8 (2) | O2Lxxi—C1A—O3Axxiii | 142.63 (9) |
O1M—Si1B—O1A | 109.1 (3) | O2Liv—C1A—O3Fxxii | 105.90 (10) |
O1M—Si1B—O2Biv | 107.1 (3) | O2Lxxi—C1A—O3F | 105.90 (10) |
O1M—Si1B—O3F | 110.6 (3) | O2Liv—C1A—O3F | 74.10 (10) |
O1M—Si1B—C1A | 88.44 (17) | O2Lxxi—C1A—O3Fxxii | 74.10 (10) |
O1M—Si1B—C1Civ | 169.35 (19) | O3Fxxii—C1A—O2Kxxi | 37.16 (10) |
O2Biv—Si1B—C1A | 59.92 (19) | O3Fxxii—C1A—O2Kiv | 142.84 (10) |
O2Biv—Si1B—C1Civ | 80.8 (2) | O3F—C1A—O2Kiv | 37.16 (10) |
O3F—Si1B—O1A | 110.2 (3) | O3F—C1A—O2Kxxi | 142.84 (10) |
O3F—Si1B—O2Biv | 110.1 (3) | O3Fxxii—C1A—O3Axxiii | 68.55 (9) |
O3F—Si1B—C1A | 64.8 (2) | O3F—C1A—O3Axxiii | 111.45 (9) |
O3F—Si1B—C1Civ | 72.14 (18) | O3F—C1A—O3Fxxii | 180.0 |
C1Civ—Si1B—C1A | 101.86 (7) | O4Axvi—C1A—O2Bxxi | 80.46 (10) |
O1B—Si1C—O2A | 110.55 (19) | O4Axxiii—C1A—O2Bxxi | 99.54 (10) |
O1B—Si1C—O3E | 109.6 (2) | O4Axxiii—C1A—O2Biv | 80.46 (10) |
O1B—Si1C—C1Biii | 165.63 (19) | O4Axvi—C1A—O2Biv | 99.54 (10) |
O1B—Si1C—C1Civ | 62.6 (2) | O4Axxiii—C1A—O2F | 140.77 (10) |
O1I—Si1C—O1B | 109.2 (3) | O4Axvi—C1A—O2F | 39.23 (10) |
O1I—Si1C—O2A | 108.5 (3) | O4Axxiii—C1A—O2Fxxii | 39.23 (10) |
O1I—Si1C—O3E | 110.7 (3) | O4Axvi—C1A—O2Fxxii | 140.77 (10) |
O1I—Si1C—C1Biii | 82.75 (18) | O4Axxiii—C1A—O2Kiv | 70.65 (10) |
O1I—Si1C—C1Civ | 171.83 (19) | O4Axvi—C1A—O2Kxxi | 70.65 (10) |
O2A—Si1C—C1Biii | 56.68 (14) | O4Axvi—C1A—O2Kiv | 109.35 (10) |
O2A—Si1C—C1Civ | 75.53 (18) | O4Axxiii—C1A—O2Kxxi | 109.35 (10) |
O3E—Si1C—O2A | 108.3 (3) | O4Axvi—C1A—O2Lxxi | 52.21 (10) |
O3E—Si1C—C1Biii | 71.85 (18) | O4Axxiii—C1A—O2Lxxi | 127.79 (10) |
O3E—Si1C—C1Civ | 73.89 (17) | O4Axxiii—C1A—O2Liv | 52.21 (10) |
C1Civ—Si1C—C1Biii | 105.29 (7) | O4Axvi—C1A—O2Liv | 127.79 (10) |
O1E—Si1D—C1Avi | 176.59 (18) | O4Axvi—C1A—O3Axxiii | 128.50 (9) |
O1E—Si1D—C1Dvi | 84.39 (16) | O4Axxiii—C1A—O3Axxiii | 51.50 (9) |
O1Kiv—Si1D—O1E | 108.7 (2) | O4Axxiii—C1A—O3F | 91.33 (10) |
O1Kiv—Si1D—O2E | 109.9 (3) | O4Axvi—C1A—O3F | 88.67 (10) |
O1Kiv—Si1D—C1Avi | 69.06 (18) | O4Axxiii—C1A—O3Fxxii | 88.68 (10) |
O1Kiv—Si1D—C1Dvi | 162.9 (2) | O4Axvi—C1A—O3Fxxii | 91.32 (10) |
O2E—Si1D—O1E | 107.5 (2) | O4Axxiii—C1A—O4Axvi | 180.0 |
O2E—Si1D—C1Avi | 75.87 (17) | O4Biv—C1A—O2Biv | 40.08 (12) |
O2E—Si1D—C1Dvi | 54.36 (19) | O4Bxxi—C1A—O2Bxxi | 40.08 (12) |
O3Cv—Si1D—O1E | 110.4 (3) | O4Bxxi—C1A—O2Biv | 139.92 (11) |
O3Cv—Si1D—O1Kiv | 110.0 (3) | O4Biv—C1A—O2Bxxi | 139.92 (12) |
O3Cv—Si1D—O2E | 110.3 (3) | O4Bxxi—C1A—O2Fxxii | 123.62 (14) |
O3Cv—Si1D—C1Avi | 68.55 (17) | O4Biv—C1A—O2Fxxii | 56.38 (14) |
O3Cv—Si1D—C1Dvi | 73.94 (19) | O4Biv—C1A—O2F | 123.62 (14) |
C1Avi—Si1D—C1Dvi | 98.30 (3) | O4Bxxi—C1A—O2F | 56.38 (14) |
O1Cvii—Si1E—O2Dvii | 109.0 (3) | O4Biv—C1A—O2Kxxi | 116.89 (15) |
O1Cvii—Si1E—O3Dvi | 109.3 (3) | O4Bxxi—C1A—O2Kxxi | 63.11 (15) |
O1Cvii—Si1E—C1Bix | 64.8 (2) | O4Biv—C1A—O2Kiv | 63.11 (15) |
O1Cvii—Si1E—C1Dx | 163.4 (2) | O4Bxxi—C1A—O2Kiv | 116.89 (15) |
O1Eviii—Si1E—O1Cvii | 109.8 (3) | O4Bxxi—C1A—O2Liv | 107.92 (11) |
O1Eviii—Si1E—O2Dvii | 107.3 (2) | O4Bxxi—C1A—O2Lxxi | 72.08 (11) |
O1Eviii—Si1E—O3Dvi | 110.6 (3) | O4Biv—C1A—O2Liv | 72.08 (11) |
O1Eviii—Si1E—C1Bix | 172.74 (17) | O4Biv—C1A—O2Lxxi | 107.92 (11) |
O1Eviii—Si1E—C1Dx | 86.02 (16) | O4Biv—C1A—O3Axxiii | 89.44 (10) |
O2Dvii—Si1E—O3Dvi | 110.9 (3) | O4Bxxi—C1A—O3Axxiii | 90.56 (10) |
O2Dvii—Si1E—C1Bix | 79.49 (17) | O4Biv—C1A—O3Fxxii | 118.88 (14) |
O2Dvii—Si1E—C1Dx | 59.6 (2) | O4Bxxi—C1A—O3F | 118.87 (14) |
O3Dvi—Si1E—C1Bix | 68.37 (18) | O4Biv—C1A—O3F | 61.13 (14) |
O3Dvi—Si1E—C1Dx | 67.93 (19) | O4Bxxi—C1A—O3Fxxii | 61.12 (14) |
C1Bix—Si1E—C1Dx | 99.91 (3) | O4Biv—C1A—O4Axxiii | 40.42 (10) |
O1D—Si1F—O2Gxi | 108.9 (3) | O4Biv—C1A—O4Axvi | 139.58 (10) |
O1D—Si1F—C1Cxi | 80.9 (2) | O4Bxxi—C1A—O4Axvi | 40.42 (10) |
O1D—Si1F—C1Di | 174.9 (2) | O4Bxxi—C1A—O4Axxiii | 139.58 (10) |
O1G—Si1F—O1D | 108.4 (3) | O4Biv—C1A—O4Bxxi | 180.0 (2) |
O1G—Si1F—O2Gxi | 108.8 (3) | O1Cxiii—C1B—Si3xi | 90.94 (7) |
O1G—Si1F—C1Cxi | 164.7 (2) | O1Cxxiv—C1B—Si3xi | 89.06 (7) |
O1G—Si1F—C1Di | 66.5 (2) | O1Cxxiv—C1B—O1Cxiii | 180.0 |
O2Gxi—Si1F—C1Cxi | 56.07 (18) | O1Cxiii—C1B—O2Cxxv | 55.88 (10) |
O2Gxi—Si1F—C1Di | 72.7 (2) | O1Cxxiv—C1B—O2Cxxv | 124.12 (10) |
O3Bi—Si1F—O1D | 110.0 (3) | O1Cxxiv—C1B—O2Cxi | 55.88 (10) |
O3Bi—Si1F—O1G | 111.1 (3) | O1Cxiii—C1B—O2Cxi | 124.12 (10) |
O3Bi—Si1F—O2Gxi | 109.6 (3) | O1Cxiii—C1B—O3Axxiv | 142.91 (9) |
O3Bi—Si1F—C1Cxi | 75.4 (3) | O1Cxxiv—C1B—O3Axxiv | 37.09 (9) |
O3Bi—Si1F—C1Di | 73.5 (2) | O1Cxxiv—C1B—O3Axiii | 142.91 (9) |
C1Cxi—Si1F—C1Di | 103.72 (8) | O1Cxiii—C1B—O3Axiii | 37.09 (9) |
O1Fxii—Si1G—C1Cxiv | 161.69 (18) | O2Axiii—C1B—Si3xi | 54.34 (7) |
O1Fxii—Si1G—C1D | 63.13 (19) | O2Axxiv—C1B—Si3xi | 125.66 (7) |
O1L—Si1G—O1Fxii | 109.0 (3) | O2Axiii—C1B—O1Cxiii | 58.33 (11) |
O1L—Si1G—C1Cxiv | 88.06 (18) | O2Axxiv—C1B—O1Cxxiv | 58.33 (11) |
O1L—Si1G—C1D | 171.63 (17) | O2Axxiv—C1B—O1Cxiii | 121.67 (11) |
O2Jxiii—Si1G—O1Fxii | 109.9 (3) | O2Axiii—C1B—O1Cxxiv | 121.67 (11) |
O2Jxiii—Si1G—O1L | 107.9 (2) | O2Axxiv—C1B—O2Axiii | 180.0 |
O2Jxiii—Si1G—O3B | 110.9 (3) | O2Axxiv—C1B—O2Cxi | 113.76 (10) |
O2Jxiii—Si1G—C1Cxiv | 56.5 (2) | O2Axiii—C1B—O2Cxi | 66.24 (10) |
O2Jxiii—Si1G—C1D | 78.32 (18) | O2Axiii—C1B—O2Cxxv | 113.76 (10) |
O3B—Si1G—O1Fxii | 109.1 (3) | O2Axxiv—C1B—O2Cxxv | 66.24 (10) |
O3B—Si1G—O1L | 110.0 (3) | O2Axiii—C1B—O2Lxiv | 90.22 (10) |
O3B—Si1G—C1Cxiv | 69.5 (3) | O2Axxiv—C1B—O2Lxiv | 89.78 (10) |
O3B—Si1G—C1D | 71.9 (2) | O2Axiii—C1B—O2Lxxvi | 89.78 (10) |
C1Cxiv—Si1G—C1D | 100.15 (7) | O2Axxiv—C1B—O2Lxxvi | 90.22 (10) |
O1Dxii—Si1H—C1A | 174.5 (2) | O2Axxiv—C1B—O3Axxiv | 59.28 (10) |
O1Dxii—Si1H—C1Civ | 74.3 (2) | O2Axiii—C1B—O3Axiii | 59.28 (10) |
O1H—Si1H—O1Dxii | 107.2 (3) | O2Axxiv—C1B—O3Axiii | 120.72 (10) |
O1H—Si1H—C1A | 77.9 (2) | O2Axiii—C1B—O3Axxiv | 120.72 (10) |
O1H—Si1H—C1Civ | 178.4 (2) | O2Axxiv—C1B—O4Cxi | 126.21 (10) |
O2Kiv—Si1H—O1Dxii | 110.4 (4) | O2Axiii—C1B—O4Cxi | 53.79 (10) |
O2Kiv—Si1H—O1H | 108.7 (3) | O2Axxiv—C1B—O4Cxxv | 53.79 (10) |
O2Kiv—Si1H—C1A | 69.0 (3) | O2Axiii—C1B—O4Cxxv | 126.21 (10) |
O2Kiv—Si1H—C1Civ | 71.0 (3) | O2Cxxv—C1B—Si3xi | 119.64 (7) |
O3F—Si1H—O1Dxii | 110.9 (3) | O2Cxi—C1B—Si3xi | 60.36 (7) |
O3F—Si1H—O1H | 109.6 (3) | O2Cxi—C1B—O2Cxxv | 180.0 |
O3F—Si1H—O2Kiv | 109.9 (3) | O2Cxxv—C1B—O3Axxiv | 106.81 (9) |
O3F—Si1H—C1A | 64.9 (2) | O2Cxxv—C1B—O3Axiii | 73.19 (9) |
O3F—Si1H—C1Civ | 69.2 (2) | O2Cxi—C1B—O3Axiii | 106.81 (9) |
C1A—Si1H—C1Civ | 100.55 (4) | O2Cxi—C1B—O3Axxiv | 73.19 (9) |
O1J—Si1I—O1Lxv | 106.9 (3) | O2Lxiv—C1B—Si3xi | 51.86 (7) |
O1J—Si1I—C1Biii | 75.9 (2) | O2Lxxvi—C1B—Si3xi | 128.14 (7) |
O1J—Si1I—C1Civ | 168.6 (2) | O2Lxiv—C1B—O1Cxiii | 142.33 (9) |
O1Lxv—Si1I—C1Biii | 176.83 (19) | O2Lxiv—C1B—O1Cxxiv | 37.67 (9) |
O1Lxv—Si1I—C1Civ | 80.30 (16) | O2Lxxvi—C1B—O1Cxxiv | 142.33 (9) |
O2Cvii—Si1I—O1J | 107.6 (3) | O2Lxxvi—C1B—O1Cxiii | 37.67 (9) |
O2Cvii—Si1I—O1Lxv | 110.5 (3) | O2Lxxvi—C1B—O2Cxxv | 37.18 (10) |
O2Cvii—Si1I—C1Biii | 67.0 (2) | O2Lxxvi—C1B—O2Cxi | 142.82 (10) |
O2Cvii—Si1I—C1Civ | 77.2 (2) | O2Lxiv—C1B—O2Cxxv | 142.82 (10) |
O3E—Si1I—O1J | 109.5 (3) | O2Lxiv—C1B—O2Cxi | 37.18 (10) |
O3E—Si1I—O1Lxv | 110.9 (2) | O2Lxiv—C1B—O2Lxxvi | 180.0 |
O3E—Si1I—O2Cvii | 111.4 (3) | O2Lxiv—C1B—O3Axiii | 143.18 (9) |
O3E—Si1I—C1Biii | 69.13 (19) | O2Lxxvi—C1B—O3Axxiv | 143.18 (9) |
O3E—Si1I—C1Civ | 59.2 (2) | O2Lxxvi—C1B—O3Axiii | 36.82 (9) |
C1Biii—Si1I—C1Civ | 97.18 (4) | O2Lxiv—C1B—O3Axxiv | 36.82 (9) |
O1I—Si1J—C1Ai | 173.31 (19) | O3Axiii—C1B—Si3xi | 111.37 (7) |
O1I—Si1J—C1Biii | 77.42 (17) | O3Axxiv—C1B—Si3xi | 68.63 (7) |
O1Mi—Si1J—O1I | 105.7 (2) | O3Axxiv—C1B—O3Axiii | 180.00 (7) |
O1Mi—Si1J—O2H | 108.5 (3) | O4Axiii—C1B—Si3xi | 157.37 (7) |
O1Mi—Si1J—C1Ai | 80.24 (17) | O4Axxiv—C1B—Si3xi | 22.63 (7) |
O1Mi—Si1J—C1Biii | 176.02 (19) | O4Axiii—C1B—O1Cxiii | 83.48 (9) |
O2H—Si1J—O1I | 108.1 (3) | O4Axiii—C1B—O1Cxxiv | 96.52 (9) |
O2H—Si1J—C1Ai | 72.21 (19) | O4Axxiv—C1B—O1Cxiii | 96.52 (9) |
O2H—Si1J—C1Biii | 72.46 (19) | O4Axxiv—C1B—O1Cxxiv | 83.48 (9) |
O3A—Si1J—O1I | 111.9 (3) | O4Axiii—C1B—O2Axxiv | 75.06 (10) |
O3A—Si1J—O1Mi | 111.6 (3) | O4Axxiv—C1B—O2Axxiv | 104.94 (10) |
O3A—Si1J—O2H | 110.9 (3) | O4Axiii—C1B—O2Axiii | 104.94 (10) |
O3A—Si1J—C1Ai | 62.40 (18) | O4Axxiv—C1B—O2Axiii | 75.06 (10) |
O3A—Si1J—C1Biii | 64.68 (17) | O4Axiii—C1B—O2Cxi | 105.15 (10) |
C1Biii—Si1J—C1Ai | 96.51 (2) | O4Axiii—C1B—O2Cxxv | 74.85 (10) |
O1G—Si1K—C1Biii | 174.27 (19) | O4Axxiv—C1B—O2Cxi | 74.85 (10) |
O1G—Si1K—C1Di | 73.7 (2) | O4Axxiv—C1B—O2Cxxv | 105.15 (10) |
O1J—Si1K—O1G | 109.2 (3) | O4Axiii—C1B—O2Lxxvi | 52.12 (10) |
O1J—Si1K—O2I | 109.4 (3) | O4Axiii—C1B—O2Lxiv | 127.88 (10) |
O1J—Si1K—C1Biii | 74.5 (2) | O4Axxiv—C1B—O2Lxxvi | 127.88 (10) |
O1J—Si1K—C1Di | 167.47 (19) | O4Axxiv—C1B—O2Lxiv | 52.12 (10) |
O2I—Si1K—O1G | 107.8 (3) | O4Axxiv—C1B—O3Axxiv | 53.37 (10) |
O2I—Si1K—C1Biii | 74.3 (2) | O4Axiii—C1B—O3Axxiv | 126.63 (10) |
O2I—Si1K—C1Di | 58.57 (16) | O4Axiii—C1B—O3Axiii | 53.37 (10) |
O3D—Si1K—O1G | 108.2 (3) | O4Axxiv—C1B—O3Axiii | 126.63 (10) |
O3D—Si1K—O1J | 111.6 (3) | O4Axxiv—C1B—O4Axiii | 180.0 |
O3D—Si1K—O2I | 110.5 (3) | O4Axxiv—C1B—O4Cxxv | 139.80 (10) |
O3D—Si1K—C1Biii | 66.10 (18) | O4Axiii—C1B—O4Cxxv | 40.20 (10) |
O3D—Si1K—C1Di | 78.05 (18) | O4Axxiv—C1B—O4Cxi | 40.20 (10) |
C1Di—Si1K—C1Biii | 103.58 (3) | O4Axiii—C1B—O4Cxi | 139.80 (10) |
O1Fxii—Si1L—O1H | 109.1 (3) | O4Cxxv—C1B—Si3xi | 157.27 (7) |
O1Fxii—Si1L—O2F | 110.4 (3) | O4Cxi—C1B—Si3xi | 22.73 (7) |
O1Fxii—Si1L—O3Civ | 109.5 (3) | O4Cxi—C1B—O1Cxiii | 105.00 (9) |
O1Fxii—Si1L—C1A | 168.9 (2) | O4Cxi—C1B—O1Cxxiv | 75.00 (9) |
O1Fxii—Si1L—C1D | 66.95 (19) | O4Cxxv—C1B—O1Cxiii | 75.00 (9) |
O1H—Si1L—O2F | 109.4 (3) | O4Cxxv—C1B—O1Cxxiv | 105.00 (9) |
O1H—Si1L—O3Civ | 110.3 (3) | O4Cxi—C1B—O2Cxi | 37.64 (10) |
O1H—Si1L—C1A | 79.4 (2) | O4Cxxv—C1B—O2Cxxv | 37.64 (10) |
O1H—Si1L—C1D | 169.2 (2) | O4Cxi—C1B—O2Cxxv | 142.36 (10) |
O2F—Si1L—O3Civ | 108.2 (3) | O4Cxxv—C1B—O2Cxi | 142.36 (10) |
O2F—Si1L—C1A | 59.1 (2) | O4Cxi—C1B—O2Lxiv | 38.13 (8) |
O2F—Si1L—C1D | 64.54 (18) | O4Cxxv—C1B—O2Lxiv | 141.87 (8) |
O3Civ—Si1L—C1A | 72.94 (18) | O4Cxxv—C1B—O2Lxxvi | 38.13 (8) |
O3Civ—Si1L—C1D | 80.42 (18) | O4Cxi—C1B—O2Lxxvi | 141.87 (8) |
C1D—Si1L—C1A | 103.38 (3) | O4Cxxv—C1B—O3Axxiv | 112.47 (9) |
O2C—Si2A—C1Ax | 168.48 (17) | O4Cxi—C1B—O3Axxiv | 67.53 (9) |
O2C—Si2A—C1Bix | 73.8 (2) | O4Cxi—C1B—O3Axiii | 112.47 (9) |
O2C—Si2A—C1Ci | 87.8 (2) | O4Cxxv—C1B—O3Axiii | 67.53 (9) |
O2Ki—Si2A—O2C | 109.7 (4) | O4Cxi—C1B—O4Cxxv | 180.00 (13) |
O2Ki—Si2A—O2Li | 107.4 (3) | O1Aiv—C1C—O2Aiv | 141.62 (12) |
O2Ki—Si2A—O4C | 111.3 (3) | O1Aiv—C1C—O2Axxvii | 141.62 (12) |
O2Ki—Si2A—C1Ax | 71.2 (3) | O1Aiv—C1C—O3Exxvii | 141.50 (11) |
O2Ki—Si2A—C1Bix | 176.5 (3) | O1Aiv—C1C—O3Eiv | 141.50 (11) |
O2Ki—Si2A—C1Ci | 74.7 (3) | O1Aiv—C1C—O3Fiv | 37.56 (12) |
O2Li—Si2A—O2C | 109.2 (3) | O1Aiv—C1C—O4Dxvi | 105.52 (17) |
O2Li—Si2A—O4C | 110.1 (3) | O1Aiv—C1C—O4Dxxix | 105.52 (17) |
O2Li—Si2A—C1Ax | 60.4 (2) | O1Biv—C1C—O1Aiv | 180.0 |
O2Li—Si2A—C1Bix | 71.4 (2) | O1Biv—C1C—O2Aiv | 38.38 (12) |
O2Li—Si2A—C1Ci | 160.2 (2) | O1Biv—C1C—O2Axxvii | 38.38 (12) |
O4C—Si2A—O2C | 109.1 (3) | O1Biv—C1C—O2Jiv | 56.30 (16) |
O4C—Si2A—C1Ax | 80.5 (2) | O1Biv—C1C—O2Jxxvii | 56.30 (16) |
O4C—Si2A—C1Bix | 66.5 (2) | O1Biv—C1C—O3Exxvii | 38.50 (11) |
O4C—Si2A—C1Ci | 52.86 (18) | O1Biv—C1C—O3Eiv | 38.50 (11) |
C1Ax—Si2A—C1Ci | 103.32 (13) | O1Biv—C1C—O3Fiv | 142.44 (12) |
C1Bix—Si2A—C1Ax | 105.46 (3) | O1Biv—C1C—O4Dxvi | 74.48 (17) |
C1Bix—Si2A—C1Ci | 105.30 (13) | O1Biv—C1C—O4Dxxix | 74.48 (17) |
O2A—Si2B—O2J | 110.3 (2) | O2Axxvii—C1C—O2Aiv | 76.8 (2) |
O2A—Si2B—C1Biii | 57.58 (16) | O2Axxvii—C1C—O3Fiv | 146.09 (9) |
O2A—Si2B—C1Civ | 75.3 (2) | O2Aiv—C1C—O3Fiv | 114.38 (10) |
O2A—Si2B—C1Diii | 162.14 (16) | O2G—C1C—O1Aiv | 60.03 (18) |
O2D—Si2B—O2A | 111.4 (3) | O2Gxxviii—C1C—O1Aiv | 60.03 (18) |
O2D—Si2B—O2J | 108.9 (3) | O2Gxxviii—C1C—O1Biv | 119.97 (18) |
O2D—Si2B—C1Biii | 82.47 (17) | O2G—C1C—O1Biv | 119.97 (18) |
O2D—Si2B—C1Civ | 171.63 (18) | O2G—C1C—O2Axxvii | 142.44 (17) |
O2D—Si2B—C1Diii | 68.1 (2) | O2Gxxviii—C1C—O2Aiv | 142.44 (17) |
O2J—Si2B—C1Biii | 166.53 (18) | O2Gxxviii—C1C—O2Axxvii | 89.45 (12) |
O2J—Si2B—C1Civ | 63.29 (18) | O2G—C1C—O2Aiv | 89.45 (12) |
O2J—Si2B—C1Diii | 85.96 (18) | O2G—C1C—O2Gxxviii | 120.1 (4) |
O4Dvii—Si2B—O2A | 110.4 (2) | O2Gxxviii—C1C—O2Jiv | 174.4 (2) |
O4Dvii—Si2B—O2D | 107.5 (3) | O2G—C1C—O2Jiv | 63.84 (12) |
O4Dvii—Si2B—O2J | 108.3 (3) | O2G—C1C—O2Jxxvii | 174.4 (2) |
O4Dvii—Si2B—C1Biii | 73.8 (2) | O2Gxxviii—C1C—O2Jxxvii | 63.84 (12) |
O4Dvii—Si2B—C1Civ | 73.6 (3) | O2G—C1C—O3Eiv | 120.67 (14) |
O4Dvii—Si2B—C1Diii | 55.38 (18) | O2Gxxviii—C1C—O3Eiv | 105.77 (12) |
C1Civ—Si2B—C1Biii | 105.67 (3) | O2Gxxviii—C1C—O3Exxvii | 120.67 (14) |
C1Diii—Si2B—C1Biii | 105.43 (3) | O2G—C1C—O3Exxvii | 105.77 (12) |
C1Diii—Si2B—C1Civ | 107.16 (12) | O2G—C1C—O3Fiv | 71.38 (19) |
O2B—Si2C—O2E | 109.3 (3) | O2Gxxviii—C1C—O3Fiv | 61.80 (18) |
O2B—Si2C—O2G | 111.4 (3) | O2Gxxviii—C1C—O4Cxvi | 109.72 (15) |
O2B—Si2C—O4B | 106.9 (3) | O2G—C1C—O4Cxxix | 109.72 (15) |
O2B—Si2C—C1Avi | 67.42 (19) | O2G—C1C—O4Cxvi | 75.28 (12) |
O2B—Si2C—C1C | 83.9 (2) | O2Gxxviii—C1C—O4Cxxix | 75.28 (12) |
O2B—Si2C—C1Dvi | 170.7 (2) | O2Gxxviii—C1C—O4Dxvi | 147.36 (16) |
O2E—Si2C—C1Avi | 86.56 (17) | O2Gxxviii—C1C—O4Dxxix | 54.92 (12) |
O2E—Si2C—C1C | 164.11 (17) | O2G—C1C—O4Dxxix | 147.36 (16) |
O2E—Si2C—C1Dvi | 62.20 (18) | O2G—C1C—O4Dxvi | 54.92 (12) |
O2G—Si2C—O2E | 110.4 (2) | O2Jxxvii—C1C—O1Aiv | 123.70 (16) |
O2G—Si2C—O4B | 110.8 (3) | O2Jiv—C1C—O1Aiv | 123.70 (16) |
O2G—Si2C—C1Avi | 161.59 (17) | O2Jiv—C1C—O2Axxvii | 85.4 (2) |
O2G—Si2C—C1C | 55.07 (17) | O2Jxxvii—C1C—O2Axxvii | 37.88 (11) |
O2G—Si2C—C1Dvi | 76.2 (2) | O2Jxxvii—C1C—O2Aiv | 85.4 (2) |
O4B—Si2C—O2E | 108.0 (3) | O2Jiv—C1C—O2Aiv | 37.88 (11) |
O4B—Si2C—C1Avi | 54.89 (19) | O2Jxxvii—C1C—O2Jiv | 112.6 (3) |
O4B—Si2C—C1C | 75.2 (3) | O2Jxxvii—C1C—O3Eiv | 53.73 (15) |
O4B—Si2C—C1Dvi | 74.0 (3) | O2Jiv—C1C—O3Eiv | 73.92 (19) |
C1Avi—Si2C—C1C | 107.20 (3) | O2Jiv—C1C—O3Exxvii | 53.73 (15) |
C1Avi—Si2C—C1Dvi | 107.10 (3) | O2Jxxvii—C1C—O3Exxvii | 73.92 (19) |
C1C—Si2C—C1Dvi | 105.12 (12) | O2Jxxvii—C1C—O3Fiv | 108.88 (11) |
O2F—Si2D—O4Axvi | 107.9 (3) | O2Jiv—C1C—O3Fiv | 123.79 (14) |
O2F—Si2D—C1A | 62.1 (2) | O2Jiv—C1C—O4Dxvi | 37.82 (10) |
O2F—Si2D—C1Bxvii | 161.4 (2) | O2Jxxvii—C1C—O4Dxxix | 37.82 (10) |
O2F—Si2D—C1D | 68.10 (18) | O2Jiv—C1C—O4Dxxix | 119.5 (3) |
O2Hxvi—Si2D—O2F | 111.3 (3) | O2Jxxvii—C1C—O4Dxvi | 119.5 (3) |
O2Hxvi—Si2D—O4Axvi | 108.1 (3) | O3Eiv—C1C—O2Axxvii | 64.78 (18) |
O2Hxvi—Si2D—C1A | 84.76 (19) | O3Exxvii—C1C—O2Aiv | 64.78 (18) |
O2Hxvi—Si2D—C1Bxvii | 79.2 (2) | O3Eiv—C1C—O2Aiv | 36.78 (12) |
O2Hxvi—Si2D—C1D | 165.2 (2) | O3Exxvii—C1C—O2Axxvii | 36.78 (12) |
O2Ixvi—Si2D—O2F | 108.4 (3) | O3Eiv—C1C—O3Exxvii | 77.0 (2) |
O2Ixvi—Si2D—O2Hxvi | 111.5 (3) | O3Exxvii—C1C—O3Fiv | 177.12 (12) |
O2Ixvi—Si2D—O4Axvi | 109.5 (3) | O3Eiv—C1C—O3Fiv | 104.00 (9) |
O2Ixvi—Si2D—C1A | 163.65 (18) | O3Exxvii—C1C—O4Dxvi | 89.29 (19) |
O2Ixvi—Si2D—C1Bxvii | 80.3 (2) | O3Eiv—C1C—O4Dxxix | 89.29 (19) |
O2Ixvi—Si2D—C1D | 56.95 (17) | O3Eiv—C1C—O4Dxvi | 66.02 (15) |
O4Axvi—Si2D—C1A | 64.60 (18) | O3Exxvii—C1C—O4Dxxix | 66.02 (15) |
O4Axvi—Si2D—C1Bxvii | 53.50 (17) | O4Cxvi—C1C—O1Aiv | 94.8 (2) |
O4Axvi—Si2D—C1D | 85.52 (16) | O4Cxxix—C1C—O1Aiv | 94.8 (2) |
C1A—Si2D—C1Bxvii | 105.29 (3) | O4Cxxix—C1C—O1Biv | 85.2 (2) |
C1D—Si2D—C1A | 106.75 (3) | O4Cxvi—C1C—O1Biv | 85.2 (2) |
C1D—Si2D—C1Bxvii | 105.82 (3) | O4Cxxix—C1C—O2Axxvii | 52.36 (14) |
O4Avi—Si3—C1Ax | 68.56 (18) | O4Cxxix—C1C—O2Aiv | 118.7 (3) |
O4Avi—Si3—C1Bix | 60.34 (17) | O4Cxvi—C1C—O2Axxvii | 118.7 (3) |
O4Avi—Si3—C1Ci | 167.63 (17) | O4Cxvi—C1C—O2Aiv | 52.36 (14) |
O4Avi—Si3—C1Dx | 84.13 (16) | O4Cxvi—C1C—O2Jxxvii | 99.79 (17) |
O4Bi—Si3—O4Avi | 108.3 (3) | O4Cxxix—C1C—O2Jxxvii | 74.78 (13) |
O4Bi—Si3—O4C | 109.3 (4) | O4Cxvi—C1C—O2Jiv | 74.78 (13) |
O4Bi—Si3—O4D | 110.5 (3) | O4Cxxix—C1C—O2Jiv | 99.79 (17) |
O4Bi—Si3—C1Ax | 55.75 (19) | O4Cxxix—C1C—O3Exxvii | 54.08 (15) |
O4Bi—Si3—C1Bix | 166.59 (19) | O4Cxvi—C1C—O3Exxvii | 117.1 (3) |
O4Bi—Si3—C1Ci | 79.0 (3) | O4Cxvi—C1C—O3Eiv | 54.08 (15) |
O4Bi—Si3—C1Dx | 75.2 (3) | O4Cxxix—C1C—O3Eiv | 117.1 (3) |
O4C—Si3—O4Avi | 108.6 (2) | O4Cxxix—C1C—O3Fiv | 126.9 (3) |
O4C—Si3—O4D | 110.3 (3) | O4Cxvi—C1C—O3Fiv | 62.07 (15) |
O4C—Si3—C1Ax | 86.75 (19) | O4Cxxix—C1C—O4Cxvi | 170.4 (4) |
O4C—Si3—C1Bix | 70.7 (2) | O4Cxxix—C1C—O4Dxvi | 137.23 (18) |
O4C—Si3—C1Ci | 59.09 (17) | O4Cxvi—C1C—O4Dxxix | 137.23 (18) |
O4C—Si3—C1Dx | 163.41 (16) | O4Cxvi—C1C—O4Dxvi | 38.86 (10) |
O4D—Si3—O4Avi | 109.7 (3) | O4Cxxix—C1C—O4Dxxix | 38.86 (10) |
O4D—Si3—C1Ax | 161.8 (2) | O4Dxvi—C1C—O2Axxvii | 112.3 (3) |
O4D—Si3—C1Bix | 81.3 (2) | O4Dxvi—C1C—O2Aiv | 36.95 (11) |
O4D—Si3—C1Ci | 75.8 (3) | O4Dxxix—C1C—O2Axxvii | 36.95 (11) |
O4D—Si3—C1Dx | 54.05 (19) | O4Dxxix—C1C—O2Aiv | 112.3 (3) |
C1Ax—Si3—C1Ci | 109.83 (15) | O4Dxxix—C1C—O3Fiv | 116.56 (18) |
C1Ax—Si3—C1Dx | 108.23 (3) | O4Dxvi—C1C—O3Fiv | 88.68 (14) |
C1Bix—Si3—C1Ax | 111.28 (3) | O4Dxxix—C1C—O4Dxvi | 149.0 (3) |
C1Bix—Si3—C1Ci | 110.93 (15) | O1Fxxx—C1D—O1Fxii | 180.0 |
C1Bix—Si3—C1Dx | 108.78 (3) | O1Fxxx—C1D—O1Gxxiv | 65.23 (11) |
C1Ci—Si3—C1Dx | 107.67 (3) | O1Fxii—C1D—O1Gxvi | 65.23 (11) |
Si1B—O1A—Si1Bxviii | 163.6 (5) | O1Fxxx—C1D—O1Gxvi | 114.77 (11) |
Si1Bxviii—O1A—C1Civ | 98.2 (2) | O1Fxii—C1D—O1Gxxiv | 114.77 (11) |
Si1B—O1A—C1Civ | 98.2 (2) | O1Fxxx—C1D—O4Bxiv | 84.36 (10) |
Si1Cxviii—O1B—Si1C | 169.2 (5) | O1Fxii—C1D—O4Bxiv | 95.64 (10) |
Si1C—O1B—C1Civ | 95.4 (2) | O1Gxxiv—C1D—O1Gxvi | 180.00 (13) |
Si1Cxviii—O1B—C1Civ | 95.4 (2) | O1Gxvi—C1D—O4Bxiv | 71.20 (9) |
Si1A—O1C—Si1Evii | 173.8 (5) | O1Gxxiv—C1D—O4Bxiv | 108.80 (9) |
Si1A—O1C—C1Biii | 89.3 (2) | O2Dxxii—C1D—O1Fxii | 126.17 (10) |
Si1Evii—O1C—C1Biii | 94.4 (2) | O2Dxxii—C1D—O1Fxxx | 53.83 (10) |
Si1F—O1D—C1Cxi | 77.8 (2) | O2Dxiii—C1D—O1Fxxx | 126.17 (10) |
Si1Hxv—O1D—Si1F | 162.3 (4) | O2Dxiii—C1D—O1Fxii | 53.83 (10) |
Si1Hxv—O1D—C1Cxi | 85.0 (2) | O2Dxxii—C1D—O1Gxxiv | 106.48 (10) |
Si1Eviii—O1E—Si1D | 149.7 (3) | O2Dxxii—C1D—O1Gxvi | 73.52 (10) |
Si1Gxv—O1F—C1Dxv | 96.05 (19) | O2Dxiii—C1D—O1Gxvi | 106.48 (10) |
Si1Lxv—O1F—Si1Gxv | 171.4 (4) | O2Dxiii—C1D—O1Gxxiv | 73.52 (10) |
Si1Lxv—O1F—C1Dxv | 91.7 (2) | O2Dxxii—C1D—O2Dxiii | 180.0 |
Si1F—O1G—Si1K | 162.1 (4) | O2Dxxii—C1D—O4Bxiv | 102.41 (10) |
Si1F—O1G—C1Di | 92.3 (2) | O2Dxiii—C1D—O4Bxiv | 77.59 (10) |
Si1K—O1G—C1Di | 84.1 (2) | O2Exxi—C1D—O1Fxii | 72.09 (10) |
Si1H—O1H—Si1L | 159.3 (4) | O2Exxi—C1D—O1Fxxx | 107.91 (10) |
Si1H—O1H—C1A | 81.2 (2) | O2Exiv—C1D—O1Fxxx | 72.09 (10) |
Si1L—O1H—C1A | 79.7 (2) | O2Exiv—C1D—O1Fxii | 107.91 (10) |
Si1C—O1I—Si1J | 158.6 (3) | O2Exxi—C1D—O1Gxvi | 128.10 (10) |
Si1C—O1I—C1Biii | 76.71 (17) | O2Exiv—C1D—O1Gxvi | 51.90 (10) |
Si1J—O1I—C1Biii | 81.93 (17) | O2Exxi—C1D—O1Gxxiv | 51.90 (10) |
Si1I—O1J—C1Biii | 83.2 (2) | O2Exiv—C1D—O1Gxxiv | 128.10 (10) |
Si1K—O1J—Si1I | 157.9 (4) | O2Exiv—C1D—O2Dxxii | 66.76 (10) |
Si1K—O1J—C1Biii | 85.0 (2) | O2Exiv—C1D—O2Dxiii | 113.24 (10) |
Si1Axvi—O1K—Si1Div | 164.4 (4) | O2Exxi—C1D—O2Dxxii | 113.24 (10) |
Si1Axvi—O1K—C1A | 83.36 (18) | O2Exxi—C1D—O2Dxiii | 66.76 (10) |
Si1Div—O1K—C1A | 90.3 (2) | O2Exiv—C1D—O2Exxi | 180.0 |
Si1G—O1L—Si1Ixii | 151.5 (3) | O2Exxi—C1D—O2F | 58.21 (11) |
Si1B—O1M—Si1Jxvi | 151.2 (3) | O2Exiv—C1D—O2Fxxxi | 58.21 (11) |
Si1B—O1M—C1A | 71.56 (16) | O2Exiv—C1D—O2F | 121.79 (11) |
Si1Jxvi—O1M—C1A | 79.85 (17) | O2Exxi—C1D—O2Fxxxi | 121.79 (11) |
Si1C—O2A—C1Biii | 102.35 (16) | O2Exxi—C1D—O4Bxiv | 142.81 (10) |
Si1C—O2A—C1Civ | 82.5 (2) | O2Exiv—C1D—O4Bxiv | 37.19 (10) |
Si2B—O2A—Si1C | 156.0 (3) | O2Fxxxi—C1D—O1Fxxx | 38.31 (10) |
Si2B—O2A—C1Biii | 101.48 (19) | O2F—C1D—O1Fxxx | 141.70 (10) |
Si2B—O2A—C1Civ | 82.94 (19) | O2Fxxxi—C1D—O1Fxii | 141.69 (10) |
C1Biii—O2A—C1Civ | 120.52 (13) | O2F—C1D—O1Fxii | 38.30 (10) |
Si1Biv—O2B—C1Avi | 99.1 (2) | O2F—C1D—O1Gxxiv | 110.01 (11) |
Si1Biv—O2B—C1C | 78.3 (2) | O2Fxxxi—C1D—O1Gxxiv | 69.98 (11) |
Si2C—O2B—Si1Biv | 153.5 (4) | O2F—C1D—O1Gxvi | 69.99 (11) |
Si2C—O2B—C1Avi | 90.3 (2) | O2Fxxxi—C1D—O1Gxvi | 110.02 (11) |
Si2C—O2B—C1C | 75.2 (2) | O2F—C1D—O2Dxxii | 96.29 (10) |
C1Avi—O2B—C1C | 110.85 (15) | O2Fxxxi—C1D—O2Dxiii | 96.29 (10) |
Si1Ivii—O2C—Si2A | 153.0 (3) | O2F—C1D—O2Dxiii | 83.71 (10) |
Si1Ivii—O2C—C1Bix | 92.2 (2) | O2Fxxxi—C1D—O2Dxxii | 83.71 (10) |
Si1Ivii—O2C—C1Ci | 83.1 (2) | O2F—C1D—O2Fxxxi | 180.0 |
Si2A—O2C—C1Bix | 84.2 (2) | O2Fxxxi—C1D—O4Bxiv | 50.52 (11) |
Si2A—O2C—C1Ci | 71.8 (2) | O2F—C1D—O4Bxiv | 129.48 (11) |
C1Bix—O2C—C1Ci | 103.82 (12) | O2Ixvi—C1D—O1Fxii | 59.78 (12) |
Si1Evii—O2D—C1Biii | 79.80 (17) | O2Ixvi—C1D—O1Fxxx | 120.22 (12) |
Si1Evii—O2D—C1Diii | 100.1 (2) | O2Ixxiv—C1D—O1Fxii | 120.22 (12) |
Si2B—O2D—Si1Evii | 156.4 (3) | O2Ixxiv—C1D—O1Fxxx | 59.78 (12) |
Si2B—O2D—C1Biii | 76.70 (17) | O2Ixvi—C1D—O1Gxxiv | 141.28 (10) |
Si2B—O2D—C1Diii | 90.0 (2) | O2Ixxiv—C1D—O1Gxvi | 141.28 (10) |
C1Diii—O2D—C1Biii | 109.47 (13) | O2Ixxiv—C1D—O1Gxxiv | 38.72 (10) |
Si1D—O2E—Si2C | 151.9 (3) | O2Ixvi—C1D—O1Gxvi | 38.72 (10) |
Si1D—O2E—C1Avi | 83.45 (16) | O2Ixvi—C1D—O2Dxiii | 113.60 (13) |
Si1D—O2E—C1Dvi | 105.9 (2) | O2Ixxiv—C1D—O2Dxxii | 113.60 (13) |
Si2C—O2E—C1Avi | 72.23 (16) | O2Ixxiv—C1D—O2Dxiii | 66.40 (13) |
Si2C—O2E—C1Dvi | 96.3 (2) | O2Ixvi—C1D—O2Dxxii | 66.40 (13) |
C1Dvi—O2E—C1Avi | 112.26 (13) | O2Ixvi—C1D—O2Exiv | 85.72 (10) |
Si1L—O2F—C1A | 99.8 (2) | O2Ixxiv—C1D—O2Exiv | 94.28 (10) |
Si1L—O2F—C1D | 94.05 (19) | O2Ixvi—C1D—O2Exxi | 94.28 (10) |
Si2D—O2F—Si1L | 157.5 (4) | O2Ixxiv—C1D—O2Exxi | 85.72 (10) |
Si2D—O2F—C1A | 96.2 (2) | O2Ixvi—C1D—O2Fxxxi | 140.60 (11) |
Si2D—O2F—C1D | 89.9 (2) | O2Ixvi—C1D—O2F | 39.40 (11) |
C1A—O2F—C1D | 124.15 (15) | O2Ixxiv—C1D—O2Fxxxi | 39.40 (11) |
Si1Fxi—O2G—C1C | 102.3 (2) | O2Ixxiv—C1D—O2F | 140.60 (11) |
Si1Fxi—O2G—C1Dvi | 86.0 (2) | O2Ixxiv—C1D—O2Ixvi | 180.00 (11) |
Si2C—O2G—Si1Fxi | 153.4 (3) | O2Ixvi—C1D—O4Bxiv | 109.88 (10) |
Si2C—O2G—C1C | 104.13 (19) | O2Ixxiv—C1D—O4Bxiv | 70.12 (10) |
Si2C—O2G—C1Dvi | 82.6 (2) | O4Dxxxii—C1D—O1Fxxx | 71.16 (10) |
C1C—O2G—C1Dvi | 120.7 (2) | O4Dxi—C1D—O1Fxxx | 108.84 (10) |
Si1J—O2H—C1Ai | 87.6 (2) | O4Dxxxii—C1D—O1Fxii | 108.84 (10) |
Si1J—O2H—C1Biii | 86.8 (2) | O4Dxi—C1D—O1Fxii | 71.16 (10) |
Si2Di—O2H—Si1J | 154.2 (4) | O4Dxxxii—C1D—O1Gxxiv | 87.34 (13) |
Si2Di—O2H—C1Ai | 74.32 (19) | O4Dxi—C1D—O1Gxvi | 87.34 (13) |
Si2Di—O2H—C1Biii | 79.7 (2) | O4Dxxxii—C1D—O1Gxvi | 92.66 (13) |
C1Biii—O2H—C1Ai | 102.91 (11) | O4Dxi—C1D—O1Gxxiv | 92.66 (13) |
Si1K—O2I—C1Biii | 85.0 (2) | O4Dxi—C1D—O2Dxiii | 39.49 (11) |
Si1K—O2I—C1Di | 99.43 (18) | O4Dxxxii—C1D—O2Dxiii | 140.51 (11) |
Si2Di—O2I—Si1K | 157.6 (3) | O4Dxxxii—C1D—O2Dxxii | 39.49 (11) |
Si2Di—O2I—C1Biii | 78.8 (2) | O4Dxi—C1D—O2Dxxii | 140.51 (11) |
Si2Di—O2I—C1Di | 101.7 (2) | O4Dxxxii—C1D—O2Exxi | 74.19 (11) |
C1Di—O2I—C1Biii | 117.63 (16) | O4Dxi—C1D—O2Exiv | 74.19 (11) |
Si1Giii—O2J—Si2B | 152.6 (3) | O4Dxi—C1D—O2Exxi | 105.81 (11) |
Si1Giii—O2J—C1Civ | 103.0 (2) | O4Dxxxii—C1D—O2Exiv | 105.81 (11) |
Si1Giii—O2J—C1Diii | 80.95 (18) | O4Dxxxii—C1D—O2F | 70.65 (10) |
Si2B—O2J—C1Civ | 94.9 (2) | O4Dxi—C1D—O2Fxxxi | 70.65 (10) |
Si2B—O2J—C1Diii | 73.14 (18) | O4Dxxxii—C1D—O2Fxxxi | 109.35 (10) |
C1Civ—O2J—C1Diii | 111.99 (18) | O4Dxi—C1D—O2F | 109.35 (10) |
Si1Hiv—O2K—C1Avi | 89.9 (3) | O4Dxxxii—C1D—O2Ixxiv | 117.29 (14) |
Si1Hiv—O2K—C1C | 88.3 (3) | O4Dxi—C1D—O2Ixxiv | 62.71 (14) |
Si2Axvi—O2K—Si1Hiv | 171.1 (4) | O4Dxi—C1D—O2Ixvi | 117.29 (14) |
Si2Axvi—O2K—C1Avi | 87.6 (3) | O4Dxxxii—C1D—O2Ixvi | 62.71 (14) |
Si2Axvi—O2K—C1C | 84.4 (3) | O4Dxi—C1D—O4Bxiv | 38.12 (11) |
C1Avi—O2K—C1C | 109.84 (16) | O4Dxxxii—C1D—O4Bxiv | 141.88 (11) |
Si1Axix—O2L—C1Avi | 97.3 (2) | O4Dxi—C1D—O4Dxxxii | 180.0 |
Si1Axix—O2L—C1Bxx | 88.7 (2) | C2Dxxvii—C2A—C2Fvii | 96 (2) |
Si2Axvi—O2L—Si1Axix | 163.8 (4) | C2Dxxvii—C2A—C2Gxi | 46 (2) |
Si2Axvi—O2L—C1Avi | 98.4 (2) | C2Dxxvii—C2A—C2K | 96 (3) |
Si2Axvi—O2L—C1Bxx | 86.7 (2) | C2Eiv—C2A—C2Dxxvii | 110 (3) |
C1Avi—O2L—C1Bxx | 121.09 (13) | C2Eiv—C2A—C2Fvii | 15.8 (18) |
Si1A—O3A—C1Ai | 84.83 (18) | C2Eiv—C2A—C2Gxi | 122 (3) |
Si1A—O3A—C1Biii | 86.08 (17) | C2Eiv—C2A—C2K | 64 (3) |
Si1J—O3A—Si1A | 176.7 (4) | C2Gxi—C2A—C2Fvii | 107 (2) |
Si1J—O3A—C1Ai | 97.8 (2) | C2Gxi—C2A—C2K | 68 (3) |
Si1J—O3A—C1Biii | 94.83 (18) | C2K—C2A—C2Fvii | 56 (2) |
C1Biii—O3A—C1Ai | 111.87 (11) | C2Cxxxiii—C2B—C2Exxxiv | 112 (3) |
Si1Fxvi—O3B—Si1G | 167.6 (4) | C2Cxxxiii—C2B—C2J | 41 (2) |
Si1Fxvi—O3B—C1Cxiv | 83.0 (3) | C2Fxviii—C2B—C2Cxxxiii | 120 (4) |
Si1Fxvi—O3B—C1D | 85.5 (2) | C2Fxviii—C2B—C2Exxxiv | 19 (3) |
Si1G—O3B—C1Cxiv | 89.7 (3) | C2Fxviii—C2B—C2J | 130 (4) |
Si1G—O3B—C1D | 87.4 (2) | C2J—C2B—C2Exxxiv | 112 (3) |
C1Cxiv—O3B—C1D | 108.63 (11) | C2Bxxxv—C2C—C2Fxxxvi | 24.2 (18) |
Si1Dv—O3C—Si1Liv | 162.0 (4) | C2Bxxxv—C2C—C2Ixxxvii | 104 (3) |
Si1Dv—O3C—C1Avi | 90.8 (2) | C2Bxxxv—C2C—C2Kxvii | 84 (3) |
Si1Dv—O3C—C1Dix | 85.73 (19) | C2Bxxxv—C2C—C2Lxvii | 105 (3) |
Si1Liv—O3C—C1Avi | 85.56 (17) | C2Fxxxvi—C2C—C2Lxvii | 81 (3) |
Si1Liv—O3C—C1Dix | 78.42 (19) | C2Ixxxvii—C2C—C2Fxxxvi | 100 (2) |
C1Avi—O3C—C1Dix | 105.95 (11) | C2Ixxxvii—C2C—C2Kxvii | 84 (3) |
Si1Exxi—O3D—C1Biii | 90.7 (2) | C2Ixxxvii—C2C—C2Lxvii | 72 (3) |
Si1Exxi—O3D—C1Di | 91.5 (2) | C2Jxxxv—C2C—C2Bxxxv | 86 (4) |
Si1K—O3D—Si1Exxi | 171.5 (4) | C2Jxxxv—C2C—C2Fxxxvi | 97 (4) |
Si1K—O3D—C1Biii | 93.21 (18) | C2Jxxxv—C2C—C2Ixxxvii | 40 (3) |
Si1K—O3D—C1Di | 80.04 (19) | C2Jxxxv—C2C—C2Kxvii | 118 (4) |
C1Biii—O3D—C1Di | 111.10 (13) | C2Jxxxv—C2C—C2Lxvii | 112 (4) |
Si1C—O3E—C1Biii | 86.66 (19) | C2Kxvii—C2C—C2Fxxxvi | 60 (3) |
Si1C—O3E—C1Civ | 83.99 (18) | C2Kxvii—C2C—C2Lxvii | 22 (2) |
Si1I—O3E—Si1C | 174.4 (3) | C2Axxx—C2D—C2Exviii | 32.3 (14) |
Si1I—O3E—C1Biii | 90.15 (19) | C2Axxx—C2D—C2I | 106 (3) |
Si1I—O3E—C1Civ | 101.5 (2) | C2Gxii—C2D—C2Axxx | 57 (2) |
C1Civ—O3E—C1Biii | 112.00 (12) | C2Gxii—C2D—C2Exviii | 74 (2) |
Si1B—O3F—C1A | 94.1 (2) | C2Gxii—C2D—C2I | 75 (3) |
Si1B—O3F—C1Civ | 86.6 (2) | C2H—C2D—C2Axxx | 125 (4) |
Si1H—O3F—Si1B | 171.7 (4) | C2H—C2D—C2Exviii | 94 (3) |
Si1H—O3F—C1A | 94.2 (2) | C2H—C2D—C2Gxii | 113 (5) |
Si1H—O3F—C1Civ | 90.1 (2) | C2H—C2D—C2I | 38 (3) |
C1A—O3F—C1Civ | 113.15 (15) | C2I—C2D—C2Exviii | 87 (2) |
Si2Di—O4A—Si3xxi | 146.6 (3) | C2Aiv—C2E—C2Bxxxviii | 116 (3) |
Si2Di—O4A—C1Ai | 93.55 (19) | C2Aiv—C2E—C2Dxviii | 37.7 (16) |
Si2Di—O4A—C1Biii | 105.7 (2) | C2Bxxxviii—C2E—C2Dxviii | 81.1 (19) |
Si2Di—O4A—C1Di | 73.38 (15) | C2Fxvi—C2E—C2Aiv | 136 (5) |
Si3xxi—O4A—C1Ai | 88.80 (19) | C2Fxvi—C2E—C2Bxxxviii | 21 (3) |
Si3xxi—O4A—C1Biii | 97.03 (19) | C2Fxvi—C2E—C2Dxviii | 102 (4) |
Si3xxi—O4A—C1Di | 74.74 (15) | C2Bxviii—C2F—C2Avii | 114 (3) |
C1Ai—O4A—C1Di | 111.06 (10) | C2Bxviii—C2F—C2Cxxxvi | 35 (3) |
C1Biii—O4A—C1Ai | 132.05 (12) | C2Bxviii—C2F—C2Ei | 140 (5) |
C1Biii—O4A—C1Di | 116.41 (12) | C2Bxviii—C2F—C2Kvii | 92 (4) |
Si2C—O4B—C1Avi | 103.4 (2) | C2Cxxxvi—C2F—C2Avii | 92.2 (18) |
Si2C—O4B—C1C | 83.2 (3) | C2Cxxxvi—C2F—C2Kvii | 56 (2) |
Si2C—O4B—C1Dvi | 84.5 (3) | C2Ei—C2F—C2Avii | 28 (3) |
Si3xvi—O4B—Si2C | 153.8 (4) | C2Ei—C2F—C2Cxxxvi | 119 (4) |
Si3xvi—O4B—C1Avi | 102.5 (2) | C2Ei—C2F—C2Kvii | 75 (4) |
Si3xvi—O4B—C1C | 79.3 (3) | C2Kvii—C2F—C2Avii | 60 (2) |
Si3xvi—O4B—C1Dvi | 83.4 (3) | C2Axi—C2G—C2Hxv | 94 (3) |
C1Avi—O4B—C1C | 124.6 (2) | C2Axi—C2G—C2Ixv | 110 (3) |
C1Avi—O4B—C1Dvi | 125.39 (19) | C2Axi—C2G—C2Kxi | 72 (3) |
C1Dvi—O4B—C1C | 109.92 (14) | C2Axi—C2G—C2Lxi | 93 (3) |
Si2A—O4C—C1Ax | 78.61 (19) | C2Dxv—C2G—C2Axi | 77 (3) |
Si2A—O4C—C1Bix | 91.7 (2) | C2Dxv—C2G—C2Hxv | 34 (3) |
Si2A—O4C—C1Ci | 106.9 (2) | C2Dxv—C2G—C2Ixv | 62 (3) |
Si3—O4C—Si2A | 147.3 (3) | C2Dxv—C2G—C2Kxi | 116 (4) |
Si3—O4C—C1Ax | 71.83 (18) | C2Dxv—C2G—C2Lxi | 126 (4) |
Si3—O4C—C1Bix | 86.6 (2) | C2Hxv—C2G—C2Lxi | 97 (3) |
Si3—O4C—C1Ci | 98.76 (19) | C2Ixv—C2G—C2Hxv | 28.0 (18) |
C1Bix—O4C—C1Ax | 111.45 (10) | C2Ixv—C2G—C2Kxi | 79 (3) |
C1Ci—O4C—C1Ax | 116.8 (2) | C2Ixv—C2G—C2Lxi | 73 (2) |
C1Ci—O4C—C1Bix | 130.6 (2) | C2Kxi—C2G—C2Hxv | 94 (3) |
Si2Bvii—O4D—Si3 | 151.5 (4) | C2Kxi—C2G—C2Lxi | 22 (2) |
Si2Bvii—O4D—C1Bix | 84.8 (2) | C2D—C2H—C2Gxii | 33 (3) |
Si2Bvii—O4D—C1Ci | 84.5 (3) | C2I—C2H—C2D | 90 (5) |
Si2Bvii—O4D—C1Dx | 103.2 (2) | C2I—C2H—C2Gxii | 56 (4) |
Si3—O4D—C1Bix | 76.8 (2) | C2I—C2H—C2Jxvi | 57 (4) |
Si3—O4D—C1Ci | 82.3 (3) | C2Jxvi—C2H—C2D | 127 (5) |
Si3—O4D—C1Dx | 105.1 (2) | C2Jxvi—C2H—C2Gxii | 100 (4) |
C1Ci—O4D—C1Bix | 111.51 (14) | C2D—C2I—C2Cxxxix | 120 (3) |
C1Dx—O4D—C1Bix | 122.81 (17) | C2Gxii—C2I—C2Cxxxix | 107 (2) |
C1Dx—O4D—C1Ci | 125.52 (19) | C2Gxii—C2I—C2D | 44 (2) |
O2Biv—C1A—O2Bxxi | 180.0 | C2H—C2I—C2Cxxxix | 109 (5) |
O2Bxxi—C1A—O2Fxxii | 92.92 (10) | C2H—C2I—C2D | 52 (4) |
O2Biv—C1A—O2Fxxii | 87.08 (10) | C2H—C2I—C2Gxii | 96 (4) |
O2Biv—C1A—O2F | 92.92 (10) | C2H—C2I—C2Jxvi | 74 (5) |
O2Bxxi—C1A—O2F | 87.08 (10) | C2Jxvi—C2I—C2Cxxxix | 41 (3) |
O2Biv—C1A—O2Kxxi | 113.02 (12) | C2Jxvi—C2I—C2D | 112 (4) |
O2Bxxi—C1A—O2Kiv | 113.02 (12) | C2Jxvi—C2I—C2Gxii | 132 (4) |
O2Biv—C1A—O2Kiv | 66.98 (12) | C2Cxxxiii—C2J—C2B | 54 (3) |
O2Bxxi—C1A—O2Kxxi | 66.98 (12) | C2Cxxxiii—C2J—C2Hi | 137 (5) |
O2Bxxi—C1A—O2Lxxi | 96.48 (11) | C2Hi—C2J—C2B | 111 (4) |
O2Biv—C1A—O2Lxxi | 83.52 (11) | C2Ii—C2J—C2B | 118 (4) |
O2Biv—C1A—O2Liv | 96.48 (11) | C2Ii—C2J—C2Cxxxiii | 98 (5) |
O2Bxxi—C1A—O2Liv | 83.52 (11) | C2Ii—C2J—C2Hi | 49 (4) |
O2Biv—C1A—O3Axxiii | 126.22 (11) | C2A—C2K—C2Fvii | 64 (3) |
O2Bxxi—C1A—O3Axxiii | 53.78 (11) | C2Cxl—C2K—C2A | 99 (3) |
O2Biv—C1A—O3Fxxii | 141.24 (10) | C2Cxl—C2K—C2Fvii | 63 (3) |
O2Bxxi—C1A—O3F | 141.24 (10) | C2Gxi—C2K—C2A | 40.9 (16) |
O2Biv—C1A—O3F | 38.76 (10) | C2Gxi—C2K—C2Cxl | 88 (3) |
O2Bxxi—C1A—O3Fxxii | 38.76 (10) | C2Gxi—C2K—C2Fvii | 93 (3) |
O2Fxxii—C1A—O2F | 180.0 | C2L—C2K—C2A | 106 (8) |
O2F—C1A—O2Kxxi | 108.80 (11) | C2L—C2K—C2Cxl | 83 (7) |
O2F—C1A—O2Kiv | 71.20 (11) | C2L—C2K—C2Fvii | 141 (9) |
O2Fxxii—C1A—O2Kxxi | 71.20 (11) | C2L—C2K—C2Gxi | 66 (7) |
O2Fxxii—C1A—O2Kiv | 108.80 (11) | C2Gxi—C2L—C2Cxl | 92 (3) |
O2Fxxii—C1A—O3Axxiii | 71.20 (9) | C2K—C2L—C2Cxl | 75 (7) |
O2F—C1A—O3Axxiii | 108.80 (9) | C2K—C2L—C2Gxi | 93 (8) |
Symmetry codes: (i) x, y+1, z; (ii) x−1, y+1, z; (iii) x, y+1/2, z−1/2; (iv) −x+1, −y+1/2, −z+1/2; (v) −x+2, −y+1/2, −z+1/2; (vi) x+1, y, z; (vii) −x+1, −y+3/2, −z+1/2; (viii) −x+2, −y+1, −z+1; (ix) x+1, y+1/2, z−1/2; (x) x+1, y+1, z; (xi) −x+1, −y+1, −z+1; (xii) −x+1/2, y−1/2, −z+1; (xiii) x, y−1/2, z+1/2; (xiv) −x+1, −y, −z+1; (xv) −x+1/2, y+1/2, −z+1; (xvi) x, y−1, z; (xvii) x, y−1/2, z−1/2; (xviii) −x+1/2, y, −z+1/2; (xix) x+1, y−1, z; (xx) x+1, y−1/2, z−1/2; (xxi) x−1, y, z; (xxii) −x, −y+1/2, −z+1/2; (xxiii) −x, −y+3/2, −z+1/2; (xxiv) −x, −y+1, −z+1; (xxv) x−1, y−1/2, z+1/2; (xxvi) x−1, y+1/2, z+1/2; (xxvii) x+1/2, −y+1/2, z; (xxviii) −x+3/2, y, −z+1/2; (xxix) −x+3/2, y−1, −z+1/2; (xxx) x−1/2, −y+1/2, z; (xxxi) −x, −y, −z+1; (xxxii) x−1, y−1, z; (xxxiii) x−1/2, −y+1, z+1/2; (xxxiv) −x+1/2, y+1, −z+1/2; (xxxv) x+1/2, −y+1, z−1/2; (xxxvi) −x+1, −y+1, −z; (xxxvii) x+1/2, −y, z−1/2; (xxxviii) −x+1/2, y−1, −z+1/2; (xxxix) x−1/2, −y, z+1/2; (xl) x, y+1/2, z+1/2. |
0.01(C56.34Na1.52O272Si136)·0.12(C) | Dx = 1.961 Mg m−3 |
Mr = 63.35 | Mo Kα radiation, λ = 0.71073 Å |
Cubic, Fd3m | Cell parameters from 30099 reflections |
a = 19.3944 (15) Å | θ = 3–67° |
V = 7295.1 (17) Å3 | µ = 0.71 mm−1 |
Z = 136 | T = 100 K |
F(000) = 4301 | Platelet |
StoeStadiVari diffractometer | θmax = 33.4°, θmin = 3.0° |
30099 measured reflections | h = −14→29 |
718 independent reflections | k = −29→29 |
695 reflections with I > 2σ(I) | l = −29→29 |
Rint = 0.330 |
Refinement on F2 | 0 restraints |
Least-squares matrix: full | w = 1/[σ2(Fo2) + 2478.P] where P = (Fo2 + 2Fc2)/3 |
R[F2 > 2σ(F2)] = 0.231 | (Δ/σ)max < 0.001 |
wR(F2) = 0.430 | Δρmax = 1.46 e Å−3 |
S = 1.19 | Δρmin = −6.57 e Å−3 |
718 reflections | Extinction correction: SHELXL, Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4 |
42 parameters | Extinction coefficient: 0.0019 (5) |
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes. |
x | y | z | Uiso*/Ueq | Occ. (<1) | |
Si1 | 0.0679 (2) | 0.0679 (2) | 0.3690 (2) | 0.0317 (16) | |
Si2 | 0.21649 (19) | 0.21649 (19) | 0.21649 (19) | 0.0114 (14) | |
Si3 | 0.1250 | 0.1250 | 0.1250 | 0.016 (3) | |
O1 | 0.0000 | 0.3451 (10) | −0.3451 (10) | 0.085 (8) | |
O2 | 0.1999 (14) | 0.1999 (14) | 0.2940 (13) | 0.122 (12) | |
O3 | 0.3752 (17) | 0.1250 | 0.1250 | 0.060 (7) | |
O4 | 0.1718 (8) | 0.1718 (8) | 0.1718 (8) | 0.113 (19) | |
Na | 0.5000 | 0.5000 | 0.5000 | 0.050* | 0.09 (6) |
C1 | 0.0000 | 0.0000 | 0.0000 | 0.024 (8) | |
C2C | 0.394 (6) | 0.394 (6) | 0.287 (9) | 0.050* | 0.17 (7) |
C2D | 0.357 (4) | 0.357 (4) | 0.425 (6) | 0.050* | 0.22 (6) |
C2E | 0.323 (5) | 0.323 (5) | 0.350 (7) | 0.050* | 0.19 (6) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Si1 | 0.043 (2) | 0.043 (2) | 0.009 (2) | 0.022 (2) | −0.0058 (15) | −0.0058 (15) |
Si2 | 0.0114 (14) | 0.0114 (14) | 0.0114 (14) | −0.0031 (12) | −0.0031 (12) | −0.0031 (12) |
Si3 | 0.016 (3) | 0.016 (3) | 0.016 (3) | 0.000 | 0.000 | 0.000 |
O1 | 0.062 (14) | 0.096 (12) | 0.096 (12) | −0.024 (8) | −0.024 (8) | −0.022 (14) |
O2 | 0.164 (19) | 0.164 (19) | 0.038 (11) | 0.01 (2) | 0.044 (11) | 0.044 (11) |
O3 | 0.09 (2) | 0.045 (9) | 0.045 (9) | 0.000 | 0.000 | 0.009 (12) |
O4 | 0.113 (19) | 0.113 (19) | 0.113 (19) | −0.058 (12) | −0.058 (12) | −0.058 (12) |
C1 | 0.024 (8) | 0.024 (8) | 0.024 (8) | 0.001 (9) | 0.001 (9) | 0.001 (9) |
Si1—O1i | 1.580 (4) | Na—C2Dxxx | 3.28 (11) |
Si1—O1ii | 1.580 (4) | Na—C2Dxxxi | 3.28 (11) |
Si1—O2iii | 1.53 (2) | Na—C2Dxxxii | 3.28 (11) |
Si1—O3iv | 1.571 (7) | C2C—C2Cxxxiii | 1.9 (3) |
Si1—Nav | 5.604 (6) | C2C—C2Cv | 1.1 (3) |
Si1—Navi | 3.150 (6) | C2C—C2Cxxxiv | 1.9 (3) |
Si2—O2vii | 1.57 (2) | C2C—C2Dvii | 1.65 (16) |
Si2—O2 | 1.57 (2) | C2C—C2Dviii | 1.65 (16) |
Si2—O2viii | 1.57 (2) | C2C—C2Dxxxv | 1.02 (15) |
Si2—O4 | 1.50 (3) | C2C—C2Dxxxvi | 1.02 (15) |
Si2—Naix | 5.575 (5) | C2C—C2Eviii | 1.76 (17) |
Si2—Nax | 5.575 (5) | C2C—C2Ev | 1.5 (2) |
Si2—Nav | 5.575 (5) | C2C—C2Evii | 1.76 (17) |
Si3—O4iii | 1.57 (3) | C2C—C2Exxxvii | 0.95 (15) |
Si3—O4xi | 1.57 (3) | C2C—C2Exxxviii | 0.95 (15) |
Si3—O4xii | 1.57 (3) | C2D—C2Cxxxvi | 1.02 (15) |
Si3—O4 | 1.57 (3) | C2D—C2Cxxxv | 1.02 (15) |
O1—Si1xiii | 1.580 (4) | C2D—C2Dxxxiv | 0.9 (2) |
O1—Si1xiv | 1.580 (4) | C2D—C2Dxxxiii | 0.9 (2) |
O1—Naxv | 2.61 (3) | C2D—C2Dxxxviii | 1.62 (17) |
O2—Si1iii | 1.53 (2) | C2D—C2Dv | 1.0 (2) |
O2—Nav | 4.22 (3) | C2D—C2Exxxiii | 1.06 (12) |
O3—Si1viii | 1.571 (7) | C2D—C2Exxxv | 1.59 (12) |
O3—Si1xvi | 1.571 (7) | C2D—C2Exxxi | 1.36 (11) |
O3—Naxvii | 4.20 (2) | C2D—C2Exxxiv | 1.06 (12) |
O3—Naix | 4.20 (2) | C2D—C2Exxxvi | 1.59 (12) |
Na—Si1xviii | 3.150 (6) | C2D—C2Exxxii | 1.36 (11) |
Na—Si1xix | 3.150 (6) | C2E—C2Cxxxii | 0.95 (15) |
Na—Si1xx | 3.150 (6) | C2E—C2Cv | 1.5 (2) |
Na—Si1xxi | 3.150 (6) | C2E—C2Cxxxi | 0.95 (15) |
Na—Si1xxii | 3.150 (6) | C2E—C2Dxxxiv | 1.06 (12) |
Na—Si1xxiii | 3.150 (6) | C2E—C2Dxxxviii | 1.36 (11) |
Na—O1xxiv | 2.61 (3) | C2E—C2Dxxxvi | 1.59 (12) |
Na—O1xxv | 2.61 (3) | C2E—C2Dxxxv | 1.59 (12) |
Na—O1xxvi | 2.61 (3) | C2E—C2Dxxxvii | 1.36 (11) |
Na—O1xxvii | 2.61 (3) | C2E—C2Dxxxiii | 1.06 (12) |
Na—O1xxviii | 2.61 (3) | C2E—C2Evii | 0.8 (2) |
Na—O1xxix | 2.61 (3) | C2E—C2Eviii | 0.8 (2) |
O1i—Si1—O1ii | 111.2 (19) | C2Dxxxv—C2C—C2Dvii | 70 (10) |
O1ii—Si1—Nav | 96.6 (2) | C2Dvii—C2C—C2Dviii | 69 (10) |
O1i—Si1—Navi | 55.7 (10) | C2Dxxxvi—C2C—C2Dxxxv | 57 (10) |
O1ii—Si1—Navi | 55.7 (10) | C2Dxxxv—C2C—C2Dviii | 28 (8) |
O1i—Si1—Nav | 96.6 (2) | C2Dxxxvi—C2C—C2Dviii | 70 (10) |
O2iii—Si1—O1i | 107.8 (9) | C2Dxxxvi—C2C—C2Evii | 33 (8) |
O2iii—Si1—O1ii | 107.8 (9) | C2Dxxxvi—C2C—C2Eviii | 50 (10) |
O2iii—Si1—O3iv | 113 (2) | C2Dviii—C2C—C2Eviii | 61 (7) |
O2iii—Si1—Nav | 135.6 (16) | C2Dxxxv—C2C—C2Ev | 74 (10) |
O2iii—Si1—Navi | 125.2 (16) | C2Dvii—C2C—C2Evii | 61 (7) |
O3iv—Si1—O1i | 108.5 (8) | C2Dvii—C2C—C2Eviii | 76 (8) |
O3iv—Si1—O1ii | 108.5 (8) | C2Dviii—C2C—C2Evii | 76 (8) |
O3iv—Si1—Nav | 22.6 (12) | C2Dxxxv—C2C—C2Evii | 50 (10) |
O3iv—Si1—Navi | 121.8 (13) | C2Dxxxv—C2C—C2Eviii | 33 (8) |
Navi—Si1—Nav | 99.27 (11) | C2Dxxxvi—C2C—C2Ev | 74 (10) |
O2vii—Si2—O2 | 110.5 (15) | C2Exxxviii—C2C—C2Cxxxiv | 7 (8) |
O2viii—Si2—O2 | 110.5 (15) | C2Eviii—C2C—C2Cxxxiii | 94 (6) |
O2viii—Si2—O2vii | 110.5 (15) | C2Ev—C2C—C2Cxxxiii | 30.0 (3) |
O2viii—Si2—Nax | 96.5 (12) | C2Evii—C2C—C2Cxxxiii | 106 (6) |
O2—Si2—Naix | 96.5 (12) | C2Ev—C2C—C2Cxxxiv | 30.0 (3) |
O2—Si2—Nav | 26.3 (15) | C2Exxxvii—C2C—C2Cxxxiii | 7 (8) |
O2vii—Si2—Naix | 96.5 (12) | C2Evii—C2C—C2Cxxxiv | 94 (6) |
O2—Si2—Nax | 96.5 (12) | C2Exxxvii—C2C—C2Cv | 124 (10) |
O2vii—Si2—Nav | 96.5 (12) | C2Eviii—C2C—C2Cxxxiv | 106 (6) |
O2viii—Si2—Naix | 26.3 (15) | C2Exxxvii—C2C—C2Cxxxiv | 53 (8) |
O2vii—Si2—Nax | 26.3 (15) | C2Exxxviii—C2C—C2Cv | 124 (10) |
O2viii—Si2—Nav | 96.5 (12) | C2Exxxviii—C2C—C2Cxxxiii | 53 (8) |
O4—Si2—O2 | 108.5 (15) | C2Exxxvii—C2C—C2Dxxxvi | 87 (10) |
O4—Si2—O2viii | 108.5 (15) | C2Exxxviii—C2C—C2Dxxxvi | 65 (10) |
O4—Si2—O2vii | 108.5 (15) | C2Exxxviii—C2C—C2Dviii | 70 (10) |
O4—Si2—Nax | 134.75 (5) | C2Exxxvii—C2C—C2Dviii | 37 (10) |
O4—Si2—Nav | 134.75 (5) | C2Exxxviii—C2C—C2Dvii | 37 (10) |
O4—Si2—Naix | 134.75 (5) | C2Ev—C2C—C2Dvii | 51 (7) |
Naix—Si2—Nav | 75.90 (7) | C2Exxxvii—C2C—C2Dvii | 70 (10) |
Nax—Si2—Nav | 75.90 (7) | C2Exxxviii—C2C—C2Dxxxv | 87 (10) |
Nax—Si2—Naix | 75.90 (7) | C2Exxxvii—C2C—C2Dxxxv | 65 (10) |
O4—Si3—O4xi | 109.471 (4) | C2Ev—C2C—C2Dviii | 51 (7) |
O4xii—Si3—O4xi | 109.5 | C2Exxxvii—C2C—C2Ev | 23 (8) |
O4—Si3—O4iii | 109.5 | C2Ev—C2C—C2Evii | 102 (10) |
O4—Si3—O4xii | 109.471 (3) | C2Exxxvii—C2C—C2Evii | 107 (10) |
O4xii—Si3—O4iii | 109.471 (2) | C2Exxxviii—C2C—C2Eviii | 107 (10) |
O4xi—Si3—O4iii | 109.471 (2) | C2Exxxviii—C2C—C2Exxxvii | 47 (10) |
Si1xiii—O1—Si1xiv | 171.3 (19) | C2Exxxviii—C2C—C2Ev | 23 (8) |
Si1xiv—O1—Naxv | 94.3 (10) | C2Ev—C2C—C2Eviii | 102 (10) |
Si1xiii—O1—Naxv | 94.3 (10) | C2Exxxviii—C2C—C2Evii | 97 (10) |
Si1iii—O2—Si2 | 178 (3) | C2Exxxvii—C2C—C2Eviii | 97 (10) |
Si1iii—O2—Nav | 37.6 (12) | C2Evii—C2C—C2Eviii | 25 (8) |
Si2—O2—Nav | 144.2 (19) | C2Cxxxv—C2D—C2Cxxxvi | 62 (10) |
Si1viii—O3—Si1xvi | 171 (2) | C2Cxxxv—C2D—C2Dxxxviii | 106 (10) |
Si1xvi—O3—Naix | 39.6 (9) | C2Cxxxvi—C2D—C2Dxxxviii | 150 (10) |
Si1viii—O3—Naxvii | 39.6 (9) | C2Cxxxv—C2D—C2Exxxvi | 67 (10) |
Si1xvi—O3—Naxvii | 149.2 (16) | C2Cxxxv—C2D—C2Exxxiv | 54 (9) |
Si1viii—O3—Naix | 149.2 (16) | C2Cxxxvi—C2D—C2Exxxi | 44 (9) |
Naix—O3—Naxvii | 109.6 (8) | C2Cxxxvi—C2D—C2Exxxiii | 54 (9) |
Si2—O4—Si3 | 180 (3) | C2Cxxxvi—C2D—C2Exxxii | 94 (10) |
Si1xx—Na—Si1xix | 119.971 (7) | C2Cxxxv—C2D—C2Exxxiii | 116 (10) |
Si1xxii—Na—Si1xxi | 119.971 (7) | C2Cxxxvi—C2D—C2Exxxvi | 122 (10) |
Si1xx—Na—Si1xviii | 119.971 (6) | C2Cxxxvi—C2D—C2Exxxv | 67 (10) |
Si1xviii—Na—Si1xxi | 180.0 | C2Cxxxv—C2D—C2Exxxi | 94 (10) |
Si1xx—Na—Si1xxi | 60.029 (6) | C2Cxxxv—C2D—C2Exxxii | 44 (9) |
Si1xxi—Na—Si1xix | 60.029 (6) | C2Cxxxv—C2D—C2Exxxv | 122 (10) |
Si1xxii—Na—Si1xix | 60.029 (6) | C2Cxxxvi—C2D—C2Exxxiv | 116 (10) |
Si1xviii—Na—Si1xxiii | 60.029 (6) | C2Dxxxiv—C2D—C2Cxxxv | 179 (8) |
Si1xviii—Na—Si1xix | 119.971 (6) | C2Dv—C2D—C2Cxxxv | 61 (8) |
Si1xx—Na—Si1xxiii | 60.029 (6) | C2Dxxxiii—C2D—C2Cxxxv | 119 (10) |
Si1xxii—Na—Si1xx | 180.00 (15) | C2Dxxxiii—C2D—C2Cxxxvi | 179 (8) |
Si1xxii—Na—Si1xxiii | 119.971 (6) | C2Dxxxiv—C2D—C2Cxxxvi | 119 (10) |
Si1xxii—Na—Si1xviii | 60.029 (6) | C2Dv—C2D—C2Cxxxvi | 61 (8) |
Si1xxi—Na—Si1xxiii | 119.971 (6) | C2Dxxxiv—C2D—C2Dv | 120.00 (6) |
Si1xxiii—Na—Si1xix | 180.0 | C2Dv—C2D—C2Dxxxviii | 88 (6) |
Si1xxi—Na—C2Dxxxi | 93.5 (10) | C2Dxxxiii—C2D—C2Dv | 120.00 (4) |
Si1xxii—Na—C2Dxxx | 86.5 (10) | C2Dxxxiv—C2D—C2Dxxxviii | 74 (3) |
Si1xix—Na—C2Dxxx | 80 (2) | C2Dxxxiii—C2D—C2Dxxxviii | 32 (6) |
Si1xviii—Na—C2Dxxxi | 86.5 (10) | C2Dxxxiv—C2D—C2Dxxxiii | 60.00 (4) |
Si1xxi—Na—C2Dxxx | 86.5 (10) | C2Dxxxiv—C2D—C2Exxxii | 136 (7) |
Si1xxiii—Na—C2Dxxx | 100 (2) | C2Dxxxiii—C2D—C2Exxxv | 112 (6) |
Si1xx—Na—C2Dxxxi | 100 (2) | C2Dv—C2D—C2Exxxii | 50 (6) |
Si1xix—Na—C2Dxxxi | 86.5 (10) | C2Dxxxiii—C2D—C2Exxxvi | 59 (5) |
Si1xviii—Na—C2Dxxxii | 86.5 (10) | C2Dv—C2D—C2Exxxi | 50 (6) |
Si1xviii—Na—C2Dxxx | 93.5 (10) | C2Dxxxiii—C2D—C2Exxxiv | 65 (7) |
Si1xxi—Na—C2Dxxxii | 93.5 (10) | C2Dxxxiv—C2D—C2Exxxiii | 65 (7) |
Si1xxii—Na—C2Dxxxii | 93.5 (10) | C2Dv—C2D—C2Exxxvi | 72 (4) |
Si1xxiii—Na—C2Dxxxii | 80 (2) | C2Dv—C2D—C2Exxxiii | 84 (8) |
Si1xxii—Na—C2Dxxxi | 80 (2) | C2Dxxxiv—C2D—C2Exxxiv | 125 (7) |
Si1xix—Na—C2Dxxxii | 100 (2) | C2Dxxxiii—C2D—C2Exxxiii | 125 (7) |
Si1xx—Na—C2Dxxxii | 86.5 (10) | C2Dxxxiv—C2D—C2Exxxi | 87 (7) |
Si1xx—Na—C2Dxxx | 93.5 (10) | C2Dv—C2D—C2Exxxv | 72 (4) |
Si1xxiii—Na—C2Dxxxi | 93.5 (10) | C2Dxxxiv—C2D—C2Exxxvi | 112 (6) |
O1xxix—Na—Si1xix | 90.000 (1) | C2Dxxxiv—C2D—C2Exxxv | 59 (5) |
O1xxvi—Na—Si1xviii | 90.000 (1) | C2Dxxxiii—C2D—C2Exxxi | 136 (7) |
O1xxiv—Na—Si1xix | 149.986 (3) | C2Dxxxiii—C2D—C2Exxxii | 87 (7) |
O1xxviii—Na—Si1xix | 30.014 (3) | C2Dv—C2D—C2Exxxiv | 84 (8) |
O1xxv—Na—Si1xx | 149.986 (3) | C2Exxxvi—C2D—C2Dxxxviii | 38 (5) |
O1xxvii—Na—Si1xix | 149.986 (3) | C2Exxxiv—C2D—C2Dxxxviii | 57 (8) |
O1xxv—Na—Si1xviii | 30.014 (3) | C2Exxxii—C2D—C2Dxxxviii | 64 (6) |
O1xxix—Na—Si1xx | 30.014 (3) | C2Exxxv—C2D—C2Dxxxviii | 105 (6) |
O1xxv—Na—Si1xxi | 149.986 (3) | C2Exxxi—C2D—C2Dxxxviii | 117 (8) |
O1xxviii—Na—Si1xx | 90.0 | C2Exxxiii—C2D—C2Dxxxviii | 127 (9) |
O1xxv—Na—Si1xxii | 30.014 (3) | C2Exxxiv—C2D—C2Exxxii | 33 (10) |
O1xxvii—Na—Si1xx | 90.0 | C2Exxxiii—C2D—C2Exxxv | 24 (8) |
O1xxvi—Na—Si1xxiii | 149.986 (3) | C2Exxxiv—C2D—C2Exxxi | 134 (10) |
O1xxix—Na—Si1xviii | 149.986 (3) | C2Exxxi—C2D—C2Exxxvi | 120 (10) |
O1xxviii—Na—Si1xviii | 149.986 (3) | C2Exxxiii—C2D—C2Exxxi | 33 (10) |
O1xxvi—Na—Si1xix | 30.014 (3) | C2Exxxv—C2D—C2Exxxvi | 128 (10) |
O1xxiv—Na—Si1xxii | 149.986 (3) | C2Exxxiv—C2D—C2Exxxv | 150 (10) |
O1xxiv—Na—Si1xxi | 90.0 | C2Exxxii—C2D—C2Exxxvi | 28 (7) |
O1xxvi—Na—Si1xxi | 90.000 (1) | C2Exxxiv—C2D—C2Exxxvi | 24 (8) |
O1xxviii—Na—Si1xxiii | 149.986 (3) | C2Exxxiii—C2D—C2Exxxvi | 150 (10) |
O1xxix—Na—Si1xxi | 30.014 (3) | C2Exxxii—C2D—C2Exxxi | 101 (10) |
O1xxix—Na—Si1xxiii | 90.0 | C2Exxxii—C2D—C2Exxxv | 120 (10) |
O1xxvii—Na—Si1xxi | 149.986 (3) | C2Exxxi—C2D—C2Exxxv | 28 (7) |
O1xxviii—Na—Si1xxi | 30.014 (3) | C2Exxxiii—C2D—C2Exxxii | 134 (10) |
O1xxix—Na—Si1xxii | 149.986 (3) | C2Exxxiv—C2D—C2Exxxiii | 167 (10) |
O1xxvi—Na—Si1xxii | 30.014 (3) | C2Cxxxii—C2E—C2Cv | 97 (8) |
O1xxiv—Na—Si1xxiii | 30.014 (3) | C2Cxxxi—C2E—C2Cv | 97 (8) |
O1xxvii—Na—Si1xxii | 90.0 | C2Cxxxi—C2E—C2Cxxxii | 166 (10) |
O1xxv—Na—Si1xxiii | 90.000 (1) | C2Cxxxi—C2E—C2Dxxxiii | 111 (10) |
O1xxviii—Na—Si1xxii | 90.0 | C2Cxxxi—C2E—C2Dxxxv | 76 (10) |
O1xxiv—Na—Si1xviii | 90.000 (1) | C2Cxxxi—C2E—C2D | 86 (10) |
O1xxiv—Na—Si1xx | 30.014 (3) | C2Cv—C2E—C2D | 111 (10) |
O1xxv—Na—Si1xix | 90.0 | C2Cxxxii—C2E—C2Dxxxvii | 135 (10) |
O1xxvii—Na—Si1xviii | 30.014 (3) | C2Cxxxi—C2E—C2Dxxxvi | 112 (10) |
O1xxvi—Na—Si1xx | 149.986 (3) | C2Cxxxi—C2E—C2Dxxxiv | 61 (10) |
O1xxvii—Na—Si1xxiii | 30.014 (3) | C2Cxxxii—C2E—C2Dxxxiii | 61 (10) |
O1xxvi—Na—O1xxix | 120.000 (1) | C2Cv—C2E—C2Dxxxv | 38 (6) |
O1xxix—Na—O1xxvii | 120.000 (1) | C2Cxxxii—C2E—C2Dxxxv | 112 (10) |
O1xxiv—Na—O1xxix | 60.000 (1) | C2Cxxxii—C2E—C2Dxxxvi | 76 (10) |
O1xxv—Na—O1xxvii | 60.000 (1) | C2Cxxxii—C2E—C2D | 86 (10) |
O1xxiv—Na—O1xxvi | 180.0 | C2Cxxxii—C2E—C2Dxxxiv | 111 (10) |
O1xxvi—Na—O1xxv | 60.0 | C2Cv—C2E—C2Dxxxvi | 38 (6) |
O1xxvi—Na—O1xxviii | 60.000 (1) | C2Cxxxi—C2E—C2Dxxxviii | 135 (10) |
O1xxv—Na—O1xxix | 180.0 | C2Cxxxii—C2E—C2Dxxxviii | 49 (10) |
O1xxv—Na—O1xxviii | 120.000 (1) | C2Cxxxi—C2E—C2Dxxxvii | 49 (10) |
O1xxviii—Na—O1xxvii | 180.0 | C2Dxxxviii—C2E—C2Cv | 69 (9) |
O1xxix—Na—O1xxviii | 60.000 (1) | C2Dxxxiv—C2E—C2Cv | 111 (10) |
O1xxiv—Na—O1xxviii | 120.000 (1) | C2Dxxxvii—C2E—C2Cv | 69 (9) |
O1xxiv—Na—O1xxvii | 60.000 (1) | C2Dxxxiii—C2E—C2Cv | 111 (10) |
O1xxvi—Na—O1xxvii | 120.000 (1) | C2Dxxxiv—C2E—C2Dxxxvii | 46 (10) |
O1xxiv—Na—O1xxv | 120.000 (1) | C2Dxxxviii—C2E—C2D | 62 (8) |
O1xxix—Na—C2Dxxxi | 97.8 (17) | C2Dxxxiv—C2E—C2Dxxxviii | 83 (10) |
O1xxvii—Na—C2Dxxx | 97.8 (17) | C2Dxxxiii—C2E—C2D | 25 (7) |
O1xxix—Na—C2Dxxx | 90.000 (5) | C2Dxxxviii—C2E—C2Dxxxvi | 34 (9) |
O1xxvi—Na—C2Dxxxii | 97.8 (17) | C2Dxxxvii—C2E—C2Dxxxvi | 66 (9) |
O1xxv—Na—C2Dxxx | 90.000 (9) | C2Dxxxiv—C2E—C2D | 25 (7) |
O1xxv—Na—C2Dxxxii | 90.000 (5) | C2Dxxxiii—C2E—C2Dxxxvii | 83 (10) |
O1xxv—Na—C2Dxxxi | 82.2 (17) | C2Dxxxv—C2E—C2D | 77 (9) |
O1xxix—Na—C2Dxxxii | 90.000 (10) | C2Dxxxiii—C2E—C2Dxxxvi | 72 (10) |
O1xxvi—Na—C2Dxxx | 82.2 (17) | C2Dxxxiv—C2E—C2Dxxxv | 72 (10) |
O1xxvii—Na—C2Dxxxi | 90.000 (3) | C2Dxxxviii—C2E—C2Dxxxvii | 87 (10) |
O1xxiv—Na—C2Dxxxi | 97.8 (17) | C2Dxxxiii—C2E—C2Dxxxv | 87 (10) |
O1xxviii—Na—C2Dxxxii | 97.8 (17) | C2Dxxxiii—C2E—C2Dxxxviii | 46 (10) |
O1xxvi—Na—C2Dxxxi | 82.2 (17) | C2Dxxxviii—C2E—C2Dxxxv | 66 (9) |
O1xxviii—Na—C2Dxxx | 82.2 (17) | C2Dxxxvi—C2E—C2D | 77 (9) |
O1xxiv—Na—C2Dxxx | 97.8 (17) | C2Dxxxvii—C2E—C2Dxxxv | 34 (9) |
O1xxviii—Na—C2Dxxxi | 90.000 (14) | C2Dxxxvii—C2E—C2D | 62 (8) |
O1xxvii—Na—C2Dxxxii | 82.2 (17) | C2Dxxxiv—C2E—C2Dxxxvi | 87 (10) |
O1xxiv—Na—C2Dxxxii | 82.2 (17) | C2Dxxxiv—C2E—C2Dxxxiii | 50 (10) |
C2Dxxxii—Na—C2Dxxx | 180 (2) | C2Dxxxv—C2E—C2Dxxxvi | 36 (8) |
C2Dxxxii—Na—C2Dxxxi | 16 (3) | C2Evii—C2E—C2Cxxxii | 67 (8) |
C2Dxxx—Na—C2Dxxxi | 164 (3) | C2Eviii—C2E—C2Cv | 30.0 (3) |
C2Cv—C2C—C2Cxxxiv | 120.00 (5) | C2Eviii—C2E—C2Cxxxii | 127 (8) |
C2Cv—C2C—C2Cxxxiii | 120.00 (4) | C2Evii—C2E—C2Cv | 30.0 (3) |
C2Cxxxiv—C2C—C2Cxxxiii | 59.997 (13) | C2Evii—C2E—C2Cxxxi | 127 (8) |
C2Cv—C2C—C2Dviii | 87 (6) | C2Eviii—C2E—C2Cxxxi | 67 (8) |
C2Cv—C2C—C2Dvii | 87 (6) | C2Eviii—C2E—C2Dxxxiii | 122 (10) |
C2Cv—C2C—C2Ev | 126 (9) | C2Evii—C2E—C2Dxxxiii | 96 (8) |
C2Cv—C2C—C2Evii | 27 (6) | C2Evii—C2E—C2D | 109 (5) |
C2Cv—C2C—C2Eviii | 27 (6) | C2Eviii—C2E—C2Dxxxv | 34 (6) |
C2Dxxxvi—C2C—C2Cxxxiv | 61 (10) | C2Evii—C2E—C2Dxxxviii | 50 (6) |
C2Dvii—C2C—C2Cxxxiv | 33 (6) | C2Eviii—C2E—C2Dxxxiv | 96 (8) |
C2Dviii—C2C—C2Cxxxiii | 33 (6) | C2Eviii—C2E—C2D | 109 (5) |
C2Dxxxv—C2C—C2Cxxxiii | 61 (10) | C2Evii—C2E—C2Dxxxv | 59 (5) |
C2Dvii—C2C—C2Cxxxiii | 74 (6) | C2Eviii—C2E—C2Dxxxvii | 50 (6) |
C2Dxxxv—C2C—C2Cxxxiv | 90 (10) | C2Eviii—C2E—C2Dxxxvi | 59 (5) |
C2Dviii—C2C—C2Cxxxiv | 74 (6) | C2Eviii—C2E—C2Dxxxviii | 93 (7) |
C2Dxxxvi—C2C—C2Cxxxiii | 90 (10) | C2Evii—C2E—C2Dxxxvii | 93 (7) |
C2Dxxxv—C2C—C2Cv | 59 (10) | C2Evii—C2E—C2Dxxxiv | 122 (10) |
C2Dxxxvi—C2C—C2Cv | 59 (10) | C2Evii—C2E—C2Dxxxvi | 34 (6) |
C2Dxxxvi—C2C—C2Dvii | 28 (8) | C2Evii—C2E—C2Eviii | 60.00 (5) |
Symmetry codes: (i) y−1/4, −x, z+3/4; (ii) −x, y−1/4, z+3/4; (iii) −x+1/4, −y+1/4, z; (iv) −z+1/4, −y+1/4, x; (v) −x+3/4, −y+3/4, z; (vi) x−1/2, y−1/2, z; (vii) y, z, x; (viii) z, x, y; (ix) −y+1, x−1/4, z−1/4; (x) y−1/4, −x+1, z−1/4; (xi) y, −x+1/4, −z+1/4; (xii) −y+1/4, x, −z+1/4; (xiii) −y, x+1/4, z−3/4; (xiv) y, −z+3/4, −x−1/4; (xv) −y+1/2, x−1/4, z−3/4; (xvi) z, −y+1/4, −x+1/4; (xvii) x, y−1/2, z−1/2; (xviii) x+1/2, y+1/2, z; (xix) z, x+1/2, y+1/2; (xx) y+1/2, z, x+1/2; (xxi) −x+1/2, −y+1/2, −z+1; (xxii) −y+1/2, −z+1, −x+1/2; (xxiii) −z+1, −x+1/2, −y+1/2; (xxiv) −z+1/4, −y+3/4, x+1/2; (xxv) −x+1/2, y+1/4, z+3/4; (xxvi) z+3/4, y+1/4, −x+1/2; (xxvii) y+1/4, −x+1/2, z+3/4; (xxviii) −y+3/4, x+1/2, −z+1/4; (xxix) x+1/2, −y+3/4, −z+1/4; (xxx) −z+1, y+1/4, x+1/4; (xxxi) −x+3/4, z, −y+3/4; (xxxii) z, −y+3/4, −x+3/4; (xxxiii) −z+3/4, x, −y+3/4; (xxxiv) y, −z+3/4, −x+3/4; (xxxv) −y+3/4, x, −z+3/4; (xxxvi) y, −x+3/4, −z+3/4; (xxxvii) −x+3/4, −z+3/4, y; (xxxviii) −z+3/4, −y+3/4, x. |
Acknowledgements
We thank A. Wagner for the sample preparation. We are grateful to the comments of three anonymous reviewers.
Funding information
Financial support was provided by the University of Vienna (grant BE532003). Open-access funding was provided by the University of Vienna.
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