research papers\(\def\hfill{\hskip 5em}\def\hfil{\hskip 3em}\def\eqno#1{\hfil {#1}}\)

IUCrJ
Volume 5| Part 3| May 2018| Pages 304-308
ISSN: 2052-2525

Polymorphism of terthio­phene with surface confinement

CROSSMARK_Color_square_no_text.svg

aInstitut für Festkörperphysik, Technische Universität Graz, Petersgasse 16, Graz 8010, Austria, bLaboratoire de Chimie des Polymères, Faculté des Sciences, Université Libre de Bruxelles, Campus de la Plaine, Bruxelles 1050, Belgium, cOptoelectronics Group, Cavendish Laboratory, University of Cambridge, J. J. Thomson Avenue, Cambridge CB3 0HE, UK, dInstitut für Anorganische Chemie, Technische Universität Graz, Stremayrgasse 9, Graz 8010, Austria, and eElettra-Sincrotrone, S. S. 14 Km 163.5 in Area Science Park, Basovizza, Trieste 34149, Italy
*Correspondence e-mail: roland.resel@tugraz.at

Edited by I. Robinson, UCL, UK (Received 18 December 2017; accepted 7 March 2018; online 29 March 2018)

The origin of unknown polymorphic phases within thin films is still not well understood. This work reports on crystals of the molecule terthio­phene which were grown by thermal gradient crystallization using glass-plate substrates. The crystalline domains displayed a plate-like morphology with an extended lateral size of about 100 µm, but a thickness of only a few µm. Specular X-ray diffraction patterns confirmed the presence of a new polymorph of terthio­phene. Crystal structure solution from a single crystal peeled from the film revealed a structure with an extremely large unit-cell volume containing 42 independent molecules. In contrast to the previously determined crystal structure of terthio­phene, a herringbone packing motif was observed where the terminal ends of the molecules are arranged within one plane (i.e. the molecular packing conforms to the flat substrate surface). This type of molecular packing is obtained by 180° flipped molecules combined with partially random (disordered) occupation. A densely packed interface between terthio­phene crystallites and the substrate surface is obtained, this confirms that the new packing motif has adapted to the flat substrate surface.

1. Introduction

The crystallization of molecular materials at solid surfaces is often associated with the appearance of previously unknown polymorphic phases. Such substrate-induced (or thin-film) phases are frequently observed for conjugated molecules used as organic semiconductors, but examples from pharmaceutical molecules have also been shown in recent work (Reischl et al., 2015[Reischl, D., Rothel, C., Christian, P., Roblegg, E. Ehmann, H. M. A., Salzmann, I. & Werzer, O. (2015). Cryst. Growth Des. 15, 4687-4693.]; Jones et al., 2016[Jones, A. O. F., Chattopadhyay, B., Geerts, Y. H. & Resel, R. (2016). Adv. Funct. Mater. 26, 2233-2255.]). The properties of these phases, especially the origins of their appearance, are not clear, so several questions relating to these phases arise: are these phases metastable and how can these phases be transformed to more thermodynamically stable phases? (Gundlach et al., 1999[Gundlach, D. J., Jackson, T. N., Schlom, D. G. & Nelson, S. F. (1999). Appl. Phys. Lett. 74, 3302-3304.]; Gbabode et al., 2012[Gbabode, G., Dumont, N., Quist, F., Schweicher, G., Moser, A., Viville, P., Lazzaroni, R. & Geerts, Y. H. (2012). Adv. Mater. 24, 658-662.]; Jones et al., 2015[Jones, A. O. F., Geerts, Y., Karpinska, J., Kennedy, A. R., Resel, R., Rothel, C., Ruzie, C., Werzer, O. & Sferrazza, M. (2015). ACS Appl. Mater. Interf. 7, 1868-1873.]; Truger et al., 2016[Truger, M., Roscioni, O. M., Rothel C., Kriegner, D., Simbrunner, C., Ahmed, R., Głowacki, E. D., Simbrunner, J., Salzmann, I., Coclite, A. M., Jones, A. O. F. & Resel, R. (2016). Cryst. Growth Des. 16, 3647-3655.]). Which growth kinetics cause new phases and what is the role of the substrate in the formation of new polymorphs? (Wedl et al., 2012[Wedl, B., Resel, R., Leising, G., Kunert, B., Salzmann, I., Oehzelt, M., Koch, N., Vollmer, A., Duhm, S., Werzer, O., Gbabode, G., Sferrazza, M. & Geerts, Y. H. (2012). RSC Adv. 2, 4404-4414.]; Chung & Diao, 2016[Chung, H. & Diao, Y. (2016). J. Mater. Chem. C, 4, 3915-3933.]). A further open question is related to the influence of the substrate surface properties (e.g. surface energy, roughness etc.) on the formation of new polymorphs (Hiszpanski et al., 2017[Hiszpanski, A., Woll, A. R., Kim, B., Nuckolls, C. & Loo, Y. (2017). Chem. Mater. 29, 4311-4316.]). A common observation related to these phases is that the topography of a substrate surface induces a specific arrangement of molecules, therefore new molecular arrangements act as nuclei for the growth of new polymorphs at the interface with the substrate surface (Jones et al., 2016[Jones, A. O. F., Chattopadhyay, B., Geerts, Y. H. & Resel, R. (2016). Adv. Funct. Mater. 26, 2233-2255.]). This can be discussed in terms of a topographic adaptation of molecular crystals to the surface, similar to the arrangement of the crystalline lattices observed for the epitaxial growth of organic molecules at surfaces (Wittmann & Lotz, 1990[Wittmann, J. C. & Lotz, B. (1990). Prog. Polym. Sci. 15, 909-948.]). The simplest case would be an atomically flat substrate where the molecular packing has to arrange along a terminal plane towards the substrate surface (i.e. no `gaps' are present in the molecular packing at the interface). Proof of such topographic adaptation can be obtained by high-quality crystal structure solution of a substrate-induced phase. However, this is difficult to perform for such systems, since the size of the crystallites is often limited to the sub µm regime. Crystal structure solution from thin films would, in theory, be a reasonable tool to determine the molecular packing relative to the substrate surface (Schiefer et al., 2007[Schiefer, S., Huth, M., Dobrinevski, A. & Nickel, B. (2007). J. Am. Chem. Soc. 129, 10316-10317.]; Krauss et al., 2008[Krauss, T. N., Barrena, E., Zhang, X. N., de Oteyza, D. G., Major, J., Dehm, V., Wuerthner, F., Cavalcanti, L. P. & Dosch, H. (2008). Langmuir, 24, 12742-12744.]). However, the limited number of available reflections obtained from thin-film diffraction patterns (e.g. from grazing-incidence diffraction experiments) does not allow sufficient accuracy in the determination of the molecular conformation and the arrangements within surface-induced crystal structures (Yoshida et al., 2007[Yoshida, H., Inaba, K. & Sato, N. (2007). Appl. Phys. Lett. 90, 181930.]; Mannsfeld et al., 2011[Mannsfeld, S. C. B., Tang, M. L. & Bao, Z. (2011). Adv. Mater. 23, 127-131.]).

In this work, we have selected the molecule 2,2′:5′,2′′-terthiophene (3T) for crystallization at a glass surface. The molecule is known to form plate-like crystals that are grown from an ether solution or by sublimation (Bolhuis et al., 1989[Bolhuis, F. van, Wynberg, H., Havinga, E. E., Meijer, E. W. & Starling, E. G. J. (1989). Synth. Met. 30, 381-389.]; Azumi et al., 2003[Azumi, R., Goto, M., Honda, K. & Matsumoto, K. (2003). Bull. Chem. Soc. Jpn, 76, 1561-1567.]). A crystal structure has been determined previously by single-crystal X-ray diffraction; the compound crystallizes in a layered herringbone structure in the space group P21/c with lattice constants a = 15.225 (4), b = 5.635 (3), c = 25.848 (3) Å and β = 98.15 (2)° at a temperature of 130 K (Bolhuis et al., 1989[Bolhuis, F. van, Wynberg, H., Havinga, E. E., Meijer, E. W. & Starling, E. G. J. (1989). Synth. Met. 30, 381-389.]). The asymmetric unit consists of two molecules and there is a total of eight molecules in the unit cell (Z = 8). Despite two different methods of crystal growth used in previous reports, their structures are identical (Azumi et al., 2003[Azumi, R., Goto, M., Honda, K. & Matsumoto, K. (2003). Bull. Chem. Soc. Jpn, 76, 1561-1567.]). Another polymorph of 3T has been observed by crystallization from the melt using thermal gradient crystallization; however, the crystal structure could not be unambiguously solved (Schweicher et al., 2011[Schweicher, G., Paquay, N., Amato, C., Resel, R., Koini, M., Talvy, S., Lemaur, V., Cornil, J., Geerts, Y. H. & Gbabode, G. (2011). Cryst. Growth Des. 11, 3663-3672.]). In this work, we have isolated the new polymorph as a high-temperature phase by optimization of the growth conditions and present its structure. The 3T crystallites were a sufficient size so that the crystal structure could be solved by single-crystal X-ray diffraction. This polymorph shows a molecular packing motif which reveals one possible reason for the appearance of a substrate-induced phase.

2. Methods

The material 2,2′:5′,2′′-terthio­phene was purchased from Aldrich with a purity of 99% and was used without further purification. The samples were prepared by thermal gradient crystallization; a schematic drawing of this crystallization technique is given in Fig. 1[link]. A precise description of the set-up used for thermal gradient crystallization is reported elsewhere (Schweicher et al., 2011[Schweicher, G., Paquay, N., Amato, C., Resel, R., Koini, M., Talvy, S., Lemaur, V., Cornil, J., Geerts, Y. H. & Gbabode, G. (2011). Cryst. Growth Des. 11, 3663-3672.]). Terthio­phene, in a quantity of 3.5 mg, was squeezed between a cleaned D263 Borosilicate thin glass slide (Präzisions Glas & Optik GmbH – 10 × 16 × 0.7 mm) and a cleaned D263 Borosilicate cover glass Cat. No. 0101040 (Marienfeld – 10 × 16 × 0.16 mm), so that a crystal thickness ranging between 20 and 50 µm can be expected. The hot and the cold end of the thermal gradient set-up was adjusted to temperatures of 383 and 333 K, respectively. Crystallization from the molten state was obtained by moving the sample with a withdrawal velocity of 5 µm s−1 from the hot end towards the cold end. In contrast to previous crystallization methods of 3T (Schweicher et al., 2011[Schweicher, G., Paquay, N., Amato, C., Resel, R., Koini, M., Talvy, S., Lemaur, V., Cornil, J., Geerts, Y. H. & Gbabode, G. (2011). Cryst. Growth Des. 11, 3663-3672.]), the crystallization process was repeated twice; the sample was turned by 180° after the first transit and the aligned end of the sample was used as a seed for the second pass. After the crystallization process, the two substrates were separated. The morphology of the crystallites prepared at the substrate surface was investigated with a Nikon Eclipse 80i optical microscope equipped with a Nikon DS-5M digital camera.

[Figure 1]
Figure 1
(a) Schematic picture of the gradient crystallization set-up where a layer of terthiophene squeezed between two glass plates is drawn with the velocity v across a temperature gradient. (b) The temperature distribution across the set-up with the crystallization temperature of terthiophene (Tcryst) located between the two heated zones.

Specular X-ray diffraction measurements were performed with a Philips X'Pert system using Cr Kα radiation (λ = 2.2910 Å) in combination with a secondary graphite monochromator. For the single-crystal structure analysis, individual crystals were removed from the substrate by an adhesive Kapton tape or by gentle scratching of the surface. Diffraction data from the single crystals were collected from two different sources. First, a Bruker D8 Kappa diffractometer equipped with a SMART APEX II CCD detector using Mo Kα radiation (λ = 0.71073 Å) from a microsource at a temperature of 100 K. Then, the solutions for the crystal structures were obtained by direct methods and structural refinement performed using SHELXS97 (Sheldrick, 2008[Sheldrick, G. M. (2008). Acta Cryst. A64, 112-122.]). The space-group assignments and structural solutions were evaluated using PLATON (Spek, 2003[Spek, A. L. (2003). J. Appl. Cryst. 36, 7-13.]). Second, the film was characterized at 100 and 293 K, scraping single-crystal fragments from the surface, using XRD from a high-brilliance synchrotron source. Data collections were performed at the X-ray diffraction beamline (XRD1) of the Elettra Synchrotron, Trieste (Italy) (Lausi et al., 2015[Lausi, A., Polentarutti M., Onesti S., Plaisier, J. R., Busetto E., Bais, G., Barba, L., Cassetta A., Campi, G., Lamba, D., Pifferi, A., Mande, S. C., Sarma, D. D., Sharma, S. M. & Paolucciet, G. (2015). Eur. Phys. J. Plus, 130, 43.]), with a Pilatus 2M hybrid-pixel area detector. Complete data sets were collected with a monochromatic wavelength of 0.700 Å through the rotating crystal method. The 3T fragments scraped from the surface were dipped in N-paratone and mounted onto the goniometer head with a nylon loop. The diffraction data were indexed and integrated using XDS (Kabsch, 2010[Kabsch, W. (2010). Acta Cryst. D66, 125-132.]). A semi-empirical absorption correction and scaling was performed, exploiting multiple measurements of symmetry-related reflections, using the program SADABS (Sheldrick, 2012[Sheldrick, G. M. (2012). SADABS. University of Göttingen, Germany.]). The structure was solved by the dual space algorithm implemented in the SHELXT code (Sheldrick, 2015a[Sheldrick, G. M. (2015a). Acta Cryst. A71, 3-8.]). Fourier analysis and refinement were performed by full-matrix least-squares based on F2 implemented in SHELXL2016/6 (Sheldrick, 2015b[Sheldrick, G. M. (2015b). Acta Cryst. C71, 3-8.]). The program Coot was used for modelling (Emsley et al., 2010[Emsley, P., Lohkamp, B., Scott, W. G. & Cowtan, K. (2010). Acta Cryst. D66, 486-501.]). Anisotropic thermal motion was then applied to all atoms with an occupancy greater than 50%. Extensive disorder has been found for nine of the eleven 3T molecules found in the asymmetric unit (ASU), therefore extensive geometric and thermal motion parameter restraints (DFIX, FLAT, SADI, DELU and SIMU) have been applied to all fragments with partial occupancies. Hydrogen atoms were included at calculated positions with isotropic Ufactors = 1.2Ueq (Ueq being the equivalent isotropic thermal factor of the bonded non-hydrogen atom). The same monoclinic crystalline form has been found at room and cryogenic temperatures (with a volume contraction of 3.9% upon cooling). A close-packed structure with no residual electron density has been found. Essential crystal and refinement data (Table 1[link]) are reported.

Table 1
Crystallographic information of the surface-confined polymorph of terthiophene

  3T Polymorph II
CCDC number 1552752
Chemical formula C12H8S3
Formula weight (g mol−1) 248.37
Temperature (K) 100 (2)
Wavelength (Å) 0.700
Crystal system Monoclinic
Space group P21/n
Unit-cell dimensions (Å, °) a = 43.822 (9), b = 5.689 (1), c = 48.331 (10), α = 90, β = 106.79 (3), γ = 90
Volume (Å3) 11536 (4)
Z 42
Density (calculated) (g cm−3) 1.502
Absorption coefficient (mm−1) 0.598
F(000) 5376
Crystal size (mm) 0.10 × 0.10 × 0.01
Crystal habit Colourless thin plates
Resolution (Å) 0.74
θ range for data collection (°) 0.54–28.23
Index ranges −59 ≤ h ≤ 59 −7 ≤ k ≤ 7 −65 ≤ l ≤ 65
Reflections collected 127933
Independent reflections [data with I > 2σ(I)] 29739 (20951)
Data multiplicity (max resolution) 4.15 (4.07)
I/σ(I) (max. resolution) 11.23 (6.27)
Rmerge (max. resolution) 0.0464 (0.1448)
Data completeness (max. resolution) (%) 99.7 (99.1)
Refinement method Full-matrix least-squares on F2
Data/restraints/parameters 29739/512/1903
Goodness-of-fit on F2 1.029
Δ/σmax 0.023
Final R indices [I > 2σ(I)] R1 = 0.0631, wR2 = 0.1687
R indices (all data) R1 = 0.0908, wR2 = 0.1909
Largest difference peak and hole (e Å−3) 1.583 and −1.3650
R.m.s. deviation from mean (e Å−3) 0.085
R1 = ∑||Fo| – |Fc||/∑|Fo|, wR2 = {∑[w(Fo2Fc2)2]/∑[w(Fo2)2]}1/2.

3. Results and discussion

The morphology of the crystals was investigated by optical microscopy using transmitted polarized light (Fig. 2[link]a). A plate-like morphology with lateral extensions of several hundred micrometres and a constant thickness has been observed. The single-crystal domains are separated by cracks which appear during cooling to room temperature as a result of the different thermal expansion coefficients of the organic material and the inorganic substrate. The homogeneous alignment of the crystallites is spread over the entire substrate, homogeneity is observed even at the starting point of the crystallization process at the substrate edge. Specular X-ray diffraction measurements reveal a Bragg peak at qz = 0.512 Å−1 and its higher order reflections at qz = 1.024 and 1.536 Å−1 (Fig. 2[link]b). These peaks arise from lattice planes with an interplanar distance of d = 12.27 Å. This distance cannot be assigned to the known crystal structure of 3T, but arises from the high-temperature phase (here denoted as the new phase) where the structure has not been solved completely (Schweicher et al., 2011[Schweicher, G., Paquay, N., Amato, C., Resel, R., Koini, M., Talvy, S., Lemaur, V., Cornil, J., Geerts, Y. H. & Gbabode, G. (2011). Cryst. Growth Des. 11, 3663-3672.]).

[Figure 2]
Figure 2
(a) Optical microscopy image using crossed polarizers and (b) specular X-ray diffraction pattern of terthio­phene crystals prepared by thermal gradient crystallization on a glass substrate. The inset provides the chemical structure of the molecule terthiophene.

Single-crystal structure solution of this phase using the XRD1 beamline at the Elettra synchrotron source at 100 K reveals a herringbone packing of the 3T molecules, as is often found for rod-like conjugated molecules (Desiraju & Gavezzotti, 1989[Desiraju, G. R. & Gavezzotti, A. (1989). Acta Cryst. B45, 473-482.]). Crystallographic information for the single-crystal structure solution is listed in Table 1[link]. A monoclinic crystal structure in the P21/n space group is found. The asymmetric unit contains 10.5 molecules, so that there are in total 42 molecules in the unit cell with a cell volume of 11 536 Å3 and a mass density of 1.502 g cm−3. A second crystal was investigated by in-house X-ray diffraction experiments at the same temperature, revealing an identical molecular packing motif, though with a slightly larger unit-cell volume (11 563 Å3) and a slightly reduced mass density of 1.498 g cm−3. Measurements were also performed using synchrotron radiation at room temperature (293 K); here, the molecular packing does not change, but the unit-cell dimensions expand to a = 44.038 (9), b = 5.769 (1), c = 49.069 (10) Å, β = 105.59 (3)°, with a volume of 12 008 (4) Å3 and a mass density of 1.443 g cm−3. The mass densities are plotted as a function of temperature in Fig. 3[link]; the straight line gives an interpolation of the measured mass densities of both investigated crystals at a temperature of 100 K and of the single-crystal solution at 293 K. Additionally, the mass densities of the known polymorphs of 3T are given at the respective temperatures in Fig. 3[link]. It should be noted that the crystal structure solution in Bolhius et al. (1989) shows a comparable mass density (1.503 g cm−3 at 130 K) to the phase reported here. However, consideration of the thermal expansion of the unit-cell volume (represented by the straight line in Fig. 3[link]) reveals that at comparable temperatures, a less dense molecular packing would be present in the new phase than in the previously reported phase. This means that, according to the mass density rule, the new polymorph is probably metastable and not the most thermodynamically stable phase (Burger & Ramberger, 1979[Burger, A. & Ramberger, R. (1979). Mikrochim. Acta, 72, 273-316.]).

[Figure 3]
Figure 3
Calculated mass densities of the terthiophene phases as a function of temperature. The previously determined phase is represented by the red circles (van Bolhuis et al., 1989[Bolhuis, F. van, Wynberg, H., Havinga, E. E., Meijer, E. W. & Starling, E. G. J. (1989). Synth. Met. 30, 381-389.]; Azumi et al., 2003[Azumi, R., Goto, M., Honda, K. & Matsumoto, K. (2003). Bull. Chem. Soc. Jpn, 76, 1561-1567.]), the surface-confined phase of this work is indicated by black circles.

Next, we discuss the molecular packing within the new polymorph. The molecules are arranged in layers in which three distinct layer types are found that vary by the tilt angles of the molecules towards different sides (Fig. 4[link]). After a sequence of three layers, the stacking of the layers continues periodically. Within a single layer the molecules are packed with a herringbone motif, so that the aromatic planes of the neighbouring molecules are tilted by about 55° relative to each other. However, not all molecules are arranged in the same manner within the herringbone pattern, some molecules are considerably disordered meaning that a cis conformation and a 180° molecular flip is possible. These disarrangements are clearly visible in Fig. 4[link]. In contrast, the known crystal structure of 3T shows only molecules in the trans conformation, and no 180° flipped or disordered molecules are present. There, a herringbone layer is formed by identically aligned molecules enclosing a herringbone angle of 59° between neighbouring molecules.

[Figure 4]
Figure 4
Arrangement of terthiophene molecules relative to the substrate surface within the surface-confined phase in a front view projected along the b axis. The crystallographic plane (30−3) is arranged parallel to the substrate surface.

However, the most striking difference between the two polymorphs of 3T is that the phase presented here shows a planar boundary of the herringbone layers. This means that the terminal ends of the molecules are arranged at one topographical level so that a flat plane confines a single herringbone layer. Therefore, we can designate this polymorph as a confined phase. In the case of the previously known structure of 3T, the confinement of molecules is only observed in the crystallographic b direction. Whereas for the new polymorph, the confinement is found in two dimensions, i.e. the herringbone layers are able to adapt to the two-dimensional substrate surface. Note that the packing for both polymorphs along the b axis is practically identical, which results in nearly equal lattice constants in that direction.

The crystallographic planes with the Miller indices (30−3) are parallel to the herringbone layers, their interplanar distances (d) of 12.29 Å are calculated based on the single-crystal solution. This value is in excellent agreement with the observed distances from the specular X-ray diffraction pattern (Fig. 2[link]b). Since specular X-ray diffraction probes only crystallographic planes that are parallel to the substrate surface, it can be concluded that the herringbone layers of the crystals within our samples are oriented parallel to the substrate surfaces. The two experimental observations of (i) confined herringbone layers which are (ii) oriented parallel to the substrate surface, reveal that the presence of a surface is crucial for the polymorph formation.

It is well known that the surfaces of herringbone layers are typically low energy surfaces and these surfaces are responsible for the plate-like morphology (Nabok et al., 2008[Nabok, D., Puschnig, P. & Ambrosch-Draxl, C. (2008). Phys. Rev. B, 77, 245316.]). However, the origin of confined herringbone layers is less clear. One mechanism would be a further reduction of surface energies due to maximizing intermolecular interactions at the surface (and also within the bulk), so that at elevated temperatures a rearrangement of the confined herringbone layers towards the previously known 3T phase could be possible (Schweicher et al., 2011[Schweicher, G., Paquay, N., Amato, C., Resel, R., Koini, M., Talvy, S., Lemaur, V., Cornil, J., Geerts, Y. H. & Gbabode, G. (2011). Cryst. Growth Des. 11, 3663-3672.]). Another mechanism is related to interaction energies at the interface between a substrate surface and 3T molecules. Dense packing of the molecules with the substrate surface results in an energy gain, so that an adaptation to the surface by the molecules would result in confinement with the substrate surface. In summary, the crystallization of the polymorph is associated with frustration between competing solid-state synthons which, for this system, are represented by the efficient molecular packing due to quadrupolar intermolecular interactions and flat surface constraints, used for crystal growth. As a consequence, a high number of molecules (Z = 10.5) are part of the asymmetric unit (Anderson et al., 2008[Anderson, K. M., Goeta, A. E. & Steed, J. W. (2008). Cryst. Growth Des. 8, 2517-2524.]).

4. Conclusions

A new polymorph of terthiophene (3T) has been prepared by thermal gradient crystallization and the crystal structure was solved using single-crystal X-ray diffraction. The similarities between the new polymorph and the previously documented phase of 3T are the formation of herringbone layers and the stacking of these layers upon each other. The molecular packing within one herringbone layer along the b axis is identical for both structures, where the terminal ends of the molecules complete the herringbone layer at the same level. However, the new polymorph presented here shows confinement in two dimensions, which is achieved by 180° flipped molecules and randomly reversed molecules at specific molecular sites. This molecular rearrangement is associated with a considerable enlargement of the crystallographic unit cell, which contains 42 molecules. Since the mass density of the new polymorph is slightly smaller than the previously documented phase, a metastable character of this polymorph can be concluded. The driving mechanism for the confinement cannot be given, however, because of the specific crystallization technique used here, an adaptation of the molecular packing to a flat substrate surface seems to play an important role and further highlights the potential for surfaces to be used to tune crystal packing.

Supporting information


Computing details top

Data collection: Elettra XRD1 Data Collection SW; cell refinement: XDS (Kabsch, 2010); data reduction: XDS (Kabsch, 2010); program(s) used to solve structure: SHELXT (Sheldrick, 2015); program(s) used to refine structure: SHELXL2016/6 (Sheldrick, 2015); molecular graphics: ORTEP-3 for Windows - COOT; software used to prepare material for publication: enCIFer - publCIF.

(I) top
Crystal data top
C12H8S3F(000) = 5376
Mr = 248.37Dx = 1.502 Mg m3
Monoclinic, P21/nSynchrotron radiation, λ = 0.700 Å
a = 43.822 (9) ÅCell parameters from 13964 reflections
b = 5.689 (1) Åθ = 0.6–28.2°
c = 48.331 (10) ŵ = 0.60 mm1
β = 106.79 (3)°T = 100 K
V = 11536 (4) Å3Flat plate, colourless
Z = 420.10 × 0.10 × 0.01 mm
Data collection top
'Huber 4-circles Kappa Goniometer, Pilatus 2M detector'
diffractometer
20951 reflections with I > 2σ(I)
Radiation source: Elettra Synchrotron - XRD1 BLRint = 0.047
Rotating crystal scansθmax = 28.2°, θmin = 0.6°
Absorption correction: multi-scan
SADABS v2012/1 (Bruker, 2012)
h = 5959
Tmin = 0.629, Tmax = 0.746k = 77
127933 measured reflectionsl = 6565
29739 independent reflections
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.063Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.191H-atom parameters constrained
S = 1.03 w = 1/[σ2(Fo2) + (0.0896P)2 + 17.608P]
where P = (Fo2 + 2Fc2)/3
29739 reflections(Δ/σ)max = 0.023
1903 parametersΔρmax = 1.58 e Å3
512 restraintsΔρmin = 1.36 e Å3
Special details top

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. Hydrogen atoms were included at calculated positions with isotropic Ufactors=1.2Ueq. Anisotropic thermal motion modeling has been applied to atoms with occupancy greater than 50%. Geometric and thermal restrains (DFIX, DANG, SADI, FLAT, DELU and SIMU) have been used for disordered 3T fragments.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
C3B_10.37710 (8)0.1109 (6)0.12349 (9)0.0348 (7)0.9
H3B_10.3819450.2387580.1366860.042*0.9
C2B_10.38948 (11)0.0753 (9)0.09900 (10)0.0499 (10)0.9
H2B_10.4037500.1826400.0941800.060*0.9
C1B_10.37904 (10)0.1248 (7)0.08336 (9)0.0540 (8)0.9
H1B_10.3853710.1717610.0669770.065*0.9
S1B_10.35365 (3)0.2768 (2)0.09675 (3)0.0530 (3)0.9
C4B_10.35656 (9)0.0787 (7)0.12413 (9)0.0525 (7)0.9
C5B_10.33908 (8)0.1134 (6)0.14512 (8)0.0360 (8)0.9
S2B_10.33901 (2)0.10014 (15)0.17079 (2)0.03450 (19)0.9
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C1A_70.8122 (10)0.131 (5)0.5129 (7)0.050 (11)*0.1
H1A_70.8211240.1095580.4973630.060*0.1
S1A_70.7893 (3)0.0714 (19)0.5234 (2)0.051 (2)*0.1
C4A_70.7849 (18)0.099 (8)0.5510 (12)0.10 (4)*0.1
C5A_70.7684 (9)0.024 (4)0.5713 (6)0.040 (10)*0.1
S2A_70.76699 (17)0.1858 (13)0.60148 (16)0.0299 (14)*0.1
C6A_70.7517 (7)0.187 (4)0.5697 (5)0.034 (6)*0.1
H6A_70.7495970.2993970.5546730.041*0.1
C7A_70.7384 (8)0.214 (4)0.5928 (6)0.046 (8)*0.1
H7A_70.7265390.3489610.5951320.055*0.1
C8A_70.7441 (6)0.028 (4)0.6116 (5)0.046 (8)*0.1
C9A_70.7314 (11)0.002 (4)0.6359 (7)0.022 (6)*0.05
S3A_70.7344 (6)0.226 (4)0.6575 (5)0.024 (5)*0.05
C12A_70.7167 (7)0.098 (7)0.6799 (5)0.046 (3)*0.05
H12A_70.7126230.1727770.6959620.055*0.05
C11A_70.7090 (7)0.132 (7)0.6718 (6)0.043 (2)*0.05
H11A_70.6987830.2299620.6823150.051*0.05
C10A_70.7174 (6)0.219 (5)0.6459 (6)0.043 (2)*0.05
H10A_70.7145840.3716700.6377350.051*0.05
C9C_70.73368 (12)0.0609 (8)0.63509 (9)0.0364 (9)0.35
S3C_70.71343 (14)0.1724 (9)0.63818 (12)0.0427 (13)*0.35
C12C_70.7038 (3)0.085 (2)0.6668 (2)0.036 (3)*0.35
H12C_70.6900030.1691460.6752070.043*0.35
C11C_70.7183 (3)0.125 (2)0.6773 (2)0.046 (3)*0.35
H11C_70.7155760.1978280.6940930.055*0.35
C10C_70.7385 (5)0.229 (3)0.6605 (5)0.037 (6)*0.35
H10C_70.7512550.3670840.6645790.044*0.35
C9D_70.7314 (11)0.002 (4)0.6359 (7)0.022 (6)*0.05
S3D_70.7076 (5)0.198 (4)0.6498 (6)0.038 (2)*0.05
C12D_70.7099 (10)0.034 (11)0.6774 (8)0.0366 (19)*0.05
H12D_70.7003990.0759040.6920600.044*0.05
C11D_70.7267 (10)0.172 (7)0.6782 (7)0.029 (14)*0.05
H11D_70.7299410.2854980.6932500.035*0.05
C10D_70.7397 (12)0.197 (7)0.6514 (12)0.023 (6)*0.05
H10D_70.7512280.3259420.6470450.028*0.05
C3_80.85959 (6)0.6813 (6)0.28148 (6)0.0283 (6)
H3_80.8538710.7936170.2936600.034*
C2_80.88706 (7)0.6955 (6)0.27101 (7)0.0377 (7)
H2_80.9021010.8199700.2760420.045*
C1_80.88975 (8)0.5155 (7)0.25325 (7)0.0410 (7)
H1_80.9064890.5021450.2444980.049*
S1_80.85962 (2)0.31782 (16)0.24862 (2)0.03999 (19)
C4_80.84235 (7)0.4732 (6)0.27079 (6)0.0302 (6)
C5_80.81304 (7)0.3907 (5)0.27557 (6)0.0280 (6)
S2_80.79320 (2)0.56347 (13)0.29456 (2)0.02776 (14)
C6_80.79685 (7)0.1856 (5)0.26667 (6)0.0313 (6)
H6_80.8040910.0674080.2561920.038*
C7_80.76830 (7)0.1669 (5)0.27460 (6)0.0301 (6)
H7_80.7543130.0358720.2698600.036*
C8_80.76296 (7)0.3592 (5)0.28995 (6)0.0266 (5)
C9A_80.73542 (7)0.4024 (5)0.30026 (6)0.0296 (6)0.7
S3A_80.70447 (6)0.2155 (6)0.29289 (7)0.0356 (6)0.7
C12A_80.68360 (14)0.3881 (14)0.31015 (16)0.0355 (13)0.7
H12A_80.6629330.3503880.3114180.043*0.7
C11A_80.69999 (18)0.5859 (15)0.32188 (18)0.0426 (16)0.7
H11A_80.6918140.7020310.3319510.051*0.7
C10A_80.7296 (3)0.5984 (19)0.3175 (3)0.042 (3)0.7
H10A_80.7444600.7206240.3248830.050*0.7
C9B_80.73542 (7)0.4024 (5)0.30026 (6)0.0296 (6)0.3
S3B_80.73060 (19)0.6337 (13)0.31783 (16)0.0331 (13)*0.3
C12B_80.6930 (4)0.546 (3)0.3190 (5)0.035 (4)*0.3
H12B_80.6798360.6353730.3275770.042*0.3
C11B_80.6848 (4)0.332 (3)0.3059 (5)0.039 (5)*0.3
H11B_80.6657450.2505480.3055700.047*0.3
C10B_80.7067 (5)0.249 (4)0.2936 (7)0.031 (6)*0.3
H10B_80.7041390.1107520.2821440.038*0.3
C4A_90.90766 (7)0.9555 (6)0.34094 (6)0.0335 (6)0.7
C3A_90.9101 (3)1.169 (2)0.3247 (2)0.028 (2)0.7
H3A_90.8939081.2848010.3183570.034*0.7
C2A_90.9408 (2)1.1736 (18)0.3200 (2)0.050 (2)0.7
H2A_90.9479201.2973050.3102160.060*0.7
C1A_90.95916 (11)0.9791 (15)0.33127 (16)0.0459 (17)0.7
H1A_90.9802220.9547750.3301640.055*0.7
S1A_90.94025 (3)0.7945 (3)0.34680 (4)0.0379 (3)0.7
C4B_90.90766 (7)0.9555 (6)0.34094 (6)0.0335 (6)0.3
C3B_90.9375 (5)0.814 (5)0.3468 (7)0.115 (10)*0.3
H3B_90.9416570.6699280.3570930.138*0.3
C2B_90.9587 (5)0.934 (5)0.3342 (8)0.113 (10)*0.3
H2B_90.9783570.8679610.3333330.135*0.3
C1B_90.9485 (4)1.150 (4)0.3235 (7)0.048 (6)*0.3
H1B_90.9608111.2582960.3162410.058*0.3
S1B_90.9113 (2)1.2005 (14)0.32481 (15)0.0339 (17)*0.3
C5_90.88097 (7)0.8856 (5)0.35107 (6)0.0302 (6)
S2_90.84848 (2)1.06976 (13)0.34720 (2)0.02864 (15)
C6_90.87747 (7)0.6835 (6)0.36550 (6)0.0323 (6)
H6_90.8927430.5602470.3696590.039*
C7_90.84900 (7)0.6772 (5)0.37350 (6)0.0310 (6)
H7_90.8431710.5496220.3836050.037*
C8_90.83056 (7)0.8741 (5)0.36523 (6)0.0261 (5)
C9_90.80066 (7)0.9335 (5)0.37053 (6)0.0270 (5)
S3_90.78530 (2)0.76255 (16)0.39266 (2)0.03910 (18)
C12_90.75333 (8)0.9431 (7)0.38843 (7)0.0403 (7)
H12_90.7368540.9170880.3972460.048*
C11_90.75410 (7)1.1290 (6)0.37097 (7)0.0358 (7)
H11_90.7379951.2463520.3662220.043*
C10_90.78135 (6)1.1315 (5)0.36044 (6)0.0287 (6)
H10_90.7858351.2499400.3483200.034*
C3A_101.00136 (12)0.7872 (8)0.42568 (10)0.0335 (9)0.95
H3A_100.9947710.8847970.4388440.040*0.95
C2A_101.02815 (10)0.8297 (8)0.41561 (9)0.0507 (10)0.95
H2A_101.0415230.9629950.4214930.061*0.95
C1A_101.03342 (10)0.6668 (8)0.39697 (9)0.0517 (10)0.95
H1A_101.0504790.6731160.3885250.062*0.95
S1A_101.00538 (3)0.4491 (2)0.39066 (2)0.0519 (3)0.95
C4A_100.98570 (9)0.5763 (7)0.41318 (8)0.0406 (8)0.95
C5A_100.95728 (8)0.4660 (7)0.41663 (7)0.0388 (8)0.95
S2A_100.93534 (2)0.60263 (16)0.43656 (2)0.0398 (2)0.95
C6A_100.94357 (9)0.2550 (6)0.40608 (8)0.0413 (8)0.95
H6A_100.9520820.1532250.3945900.050*0.95
C7A_100.91559 (9)0.2030 (6)0.41389 (7)0.0395 (8)0.95
H7A_100.9034910.0634660.4082340.047*0.95
C8A_100.90772 (9)0.3758 (6)0.43055 (7)0.0362 (7)0.95
C9A_100.88058 (9)0.3833 (6)0.44148 (8)0.0346 (7)0.85
S3A_100.85134 (3)0.1741 (2)0.43192 (3)0.0456 (3)0.85
C12A_100.82894 (13)0.3018 (11)0.45128 (13)0.0475 (11)0.85
H12A_100.8089420.2443470.4522930.057*0.85
C11A_100.84367 (17)0.4983 (11)0.46515 (13)0.0490 (14)0.85
H11A_100.8347650.5911570.4772020.059*0.85
C10A_100.8739 (2)0.5547 (14)0.4601 (2)0.0417 (19)0.85
H10A_100.8870400.6852040.4680640.050*0.85
C9B_100.88058 (9)0.3833 (6)0.44148 (8)0.0346 (7)0.1
S3B_100.8711 (4)0.589 (3)0.4615 (5)0.035 (4)*0.1
C12B_100.8374 (4)0.446 (4)0.4637 (4)0.032 (12)*0.1
H12B_100.8244640.4905500.4755830.039*0.1
C11B_100.8321 (6)0.255 (6)0.4453 (9)0.024 (9)*0.1
H11B_100.8125490.1699140.4401540.029*0.1
C10B_100.8590 (5)0.194 (4)0.4345 (6)0.036 (3)*0.1
H10B_100.8615030.0534620.4246800.043*0.1
C3C_100.9885 (7)0.427 (5)0.4005 (7)0.038 (3)*0.05
H3C_100.9771900.2883560.3927680.045*0.05
C2C_101.0191 (7)0.492 (6)0.3974 (7)0.039 (3)*0.05
H2C_101.0302600.3988250.3872520.046*0.05
C1C_101.0306 (5)0.699 (5)0.4103 (5)0.039 (3)*0.05
H1C_101.0504420.7650150.4101200.047*0.05
S1C_101.0053 (6)0.825 (4)0.4266 (5)0.036 (3)*0.05
C4C_100.9776 (4)0.600 (4)0.4167 (4)0.037 (3)*0.05
C5C_100.9488 (5)0.617 (4)0.4256 (6)0.012 (8)*0.05
S2C_100.9226 (3)0.385 (2)0.4215 (3)0.031 (3)*0.05
C6C_100.9418 (7)0.783 (4)0.4439 (8)0.011 (7)*0.05
H6C_100.9538480.9226790.4496040.013*0.05
C7C_100.9150 (8)0.726 (5)0.4533 (10)0.025 (10)*0.05
H7C_100.9067810.8248780.4652260.030*0.05
C8C_100.9021 (6)0.510 (4)0.4432 (7)0.027 (11)*0.05
C9C_100.8731 (4)0.409 (3)0.4465 (4)0.008 (11)*0.05
S3C_100.8523 (4)0.546 (3)0.4660 (4)0.027 (5)*0.05
C12C_100.8242 (10)0.330 (7)0.4608 (13)0.026 (15)*0.05
H12C_100.8068600.3288200.4688840.032*0.05
C11C_100.8303 (6)0.159 (5)0.4431 (7)0.024 (11)*0.05
H11C_100.8166910.0276490.4369680.029*0.05
C10C_100.8590 (5)0.194 (4)0.4345 (6)0.036 (3)*0.05
H10C_100.8670440.0899330.4228480.043*0.05
C3_111.07663 (12)0.8926 (9)0.49560 (15)0.044 (2)0.5
H3_111.0739810.7575860.5062440.052*0.5
C2_111.10484 (12)0.9464 (10)0.48610 (16)0.0477 (19)0.5
H2_111.1236270.8531470.4910840.057*0.5
C1_111.1014 (2)1.145 (2)0.4693 (3)0.050 (4)0.5
H1_111.1162301.1925510.4594860.060*0.5
S1_111.06741 (6)1.2960 (4)0.46802 (5)0.0464 (5)0.5
C4_111.05397 (16)1.0761 (15)0.4862 (2)0.040 (3)0.5
C5_111.02293 (10)1.0954 (10)0.49109 (15)0.0347 (15)0.5
S2_111.00921 (4)0.8717 (3)0.50875 (4)0.0380 (3)0.5
C6_111.00043 (12)1.2683 (9)0.48230 (14)0.0420 (16)0.5
H6_111.0036961.4071840.4726150.050*0.5
C7_110.97168 (11)1.2179 (10)0.48919 (15)0.0466 (17)0.5
H7_110.9537161.3196220.4843940.056*0.5
C8_110.97237 (11)1.0060 (11)0.50360 (18)0.0436 (19)0.5
C9_110.94825 (15)0.8981 (13)0.5143 (3)0.038 (3)0.5
S3_110.91348 (5)1.0462 (4)0.51300 (5)0.0482 (4)0.5
C12_110.9006 (3)0.822 (2)0.5303 (5)0.059 (4)0.5
H12_110.8802350.8153950.5334400.070*0.5
C11_110.92338 (19)0.6525 (11)0.53884 (19)0.053 (2)0.5
H11_110.9209110.5204480.5500380.064*0.5
C10_110.95090 (13)0.6884 (10)0.52982 (15)0.0462 (19)0.5
H10_110.9686540.5849290.5337570.055*0.5
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
C3B_10.0250 (15)0.0326 (17)0.045 (2)0.0004 (13)0.0068 (15)0.0026 (15)
C2B_10.040 (2)0.057 (3)0.048 (2)0.0063 (19)0.0045 (19)0.010 (2)
C1B_10.0529 (13)0.0547 (13)0.0554 (13)0.0061 (11)0.0173 (12)0.0165 (11)
S1B_10.0455 (6)0.0409 (5)0.0610 (7)0.0045 (5)0.0029 (5)0.0144 (5)
C4B_10.0549 (13)0.0533 (13)0.0583 (13)0.0346 (11)0.0305 (11)0.0387 (11)
C5B_10.0305 (16)0.0228 (15)0.0434 (19)0.0011 (13)0.0071 (15)0.0028 (14)
S2B_10.0307 (4)0.0232 (4)0.0420 (5)0.0033 (3)0.0014 (4)0.0015 (3)
C6B_10.0350 (18)0.0261 (16)0.050 (2)0.0021 (14)0.0090 (16)0.0019 (15)
C7B_10.0330 (18)0.0294 (17)0.051 (2)0.0089 (14)0.0099 (16)0.0083 (16)
C8B_10.0288 (16)0.0286 (16)0.0424 (19)0.0033 (13)0.0070 (14)0.0078 (14)
C9B_10.0263 (16)0.038 (2)0.0427 (18)0.0027 (17)0.0049 (15)0.0060 (17)
S3B_10.0362 (7)0.0434 (10)0.0475 (10)0.0074 (7)0.0061 (8)0.0120 (8)
C12B_10.032 (3)0.032 (3)0.047 (3)0.005 (2)0.007 (2)0.005 (3)
C11B_10.030 (3)0.037 (3)0.053 (4)0.005 (2)0.004 (3)0.009 (3)
C10B_10.016 (3)0.053 (6)0.113 (10)0.003 (3)0.007 (3)0.050 (5)
C1A_10.0529 (13)0.0547 (13)0.0554 (13)0.0061 (11)0.0173 (12)0.0165 (11)
C4A_10.0549 (13)0.0533 (13)0.0583 (13)0.0346 (11)0.0305 (11)0.0387 (11)
C9C_10.0263 (16)0.038 (2)0.0427 (18)0.0027 (17)0.0049 (15)0.0060 (17)
C3A_20.0200 (13)0.0352 (16)0.0356 (17)0.0008 (12)0.0081 (12)0.0008 (13)
C2A_20.0304 (16)0.044 (2)0.0416 (19)0.0001 (14)0.0077 (15)0.0006 (15)
C1A_20.0371 (17)0.057 (2)0.0411 (18)0.0097 (16)0.0094 (15)0.0032 (16)
S1A_20.0400 (5)0.0416 (5)0.0434 (5)0.0016 (4)0.0080 (4)0.0044 (4)
C4A_20.0333 (12)0.0405 (14)0.0374 (13)0.0156 (11)0.0105 (11)0.0078 (11)
C5A_20.0244 (14)0.0367 (17)0.0377 (17)0.0014 (13)0.0016 (13)0.0055 (14)
S2A_20.0308 (4)0.0323 (4)0.0402 (4)0.0040 (3)0.0088 (3)0.0069 (3)
C6A_20.0275 (15)0.0403 (18)0.0435 (19)0.0012 (14)0.0013 (14)0.0125 (15)
C7A_20.0268 (15)0.0343 (17)0.0417 (18)0.0020 (13)0.0014 (13)0.0098 (14)
C8A_20.0202 (13)0.0317 (16)0.0387 (17)0.0007 (12)0.0033 (12)0.0026 (13)
C9A_20.0227 (13)0.0321 (15)0.0396 (16)0.0027 (11)0.0060 (12)0.0036 (12)
S3A_20.0375 (4)0.0317 (4)0.0484 (5)0.0080 (3)0.0091 (4)0.0044 (4)
C12A_20.0355 (16)0.0425 (18)0.0447 (19)0.0024 (14)0.0100 (15)0.0010 (15)
C11A_20.0346 (17)0.0368 (17)0.0382 (18)0.0024 (14)0.0109 (15)0.0004 (14)
C10A_20.0270 (15)0.0347 (16)0.0325 (16)0.0034 (12)0.0077 (13)0.0050 (13)
C1B_20.0371 (17)0.057 (2)0.0411 (18)0.0097 (16)0.0094 (15)0.0032 (16)
C4B_20.0333 (12)0.0405 (14)0.0374 (13)0.0156 (11)0.0105 (11)0.0078 (11)
C9B_20.0227 (13)0.0321 (15)0.0396 (16)0.0027 (11)0.0060 (12)0.0036 (12)
C12B_20.0355 (16)0.0425 (18)0.0447 (19)0.0024 (14)0.0100 (15)0.0010 (15)
C3B_30.0279 (17)0.0371 (19)0.0268 (17)0.0046 (14)0.0053 (15)0.0044 (14)
C2B_30.0322 (17)0.039 (2)0.043 (2)0.0025 (15)0.0013 (16)0.0027 (16)
C1B_30.0264 (19)0.048 (3)0.042 (3)0.0034 (17)0.0053 (16)0.0079 (17)
S1B_30.0305 (4)0.0417 (5)0.0455 (6)0.0023 (4)0.0087 (4)0.0049 (4)
C4B_30.0171 (16)0.035 (2)0.0336 (18)0.0012 (12)0.0003 (12)0.0067 (13)
C5B_30.0196 (13)0.0312 (16)0.0325 (16)0.0003 (12)0.0008 (12)0.0062 (13)
S2B_30.0237 (4)0.0263 (4)0.0400 (4)0.0031 (3)0.0048 (3)0.0025 (3)
C6B_30.0245 (15)0.0344 (17)0.0392 (18)0.0043 (13)0.0006 (13)0.0088 (14)
C7B_30.0262 (15)0.0277 (16)0.0385 (18)0.0014 (13)0.0002 (13)0.0052 (14)
C8B_30.0196 (13)0.0266 (15)0.0373 (17)0.0027 (12)0.0010 (13)0.0052 (13)
C9B_30.020 (2)0.0316 (19)0.037 (2)0.0024 (13)0.0014 (13)0.0060 (16)
S3B_30.0328 (10)0.0325 (9)0.0407 (12)0.0027 (6)0.0059 (8)0.0019 (7)
C12B_30.029 (4)0.040 (4)0.044 (4)0.005 (4)0.011 (3)0.011 (3)
C11B_30.025 (3)0.045 (3)0.038 (4)0.005 (2)0.008 (3)0.011 (3)
C10B_30.029 (5)0.041 (5)0.048 (5)0.004 (3)0.011 (3)0.016 (3)
C9C_30.020 (2)0.0316 (19)0.037 (2)0.0024 (13)0.0014 (13)0.0060 (16)
C3_40.0161 (11)0.0312 (13)0.0235 (12)0.0007 (10)0.0058 (10)0.0059 (10)
C2_40.0297 (14)0.0404 (17)0.0380 (16)0.0030 (13)0.0081 (13)0.0036 (13)
C1_40.0350 (16)0.0486 (19)0.0339 (16)0.0031 (14)0.0100 (13)0.0004 (14)
S1_40.0367 (4)0.0426 (4)0.0378 (4)0.0024 (3)0.0103 (3)0.0057 (3)
C4_40.0240 (13)0.0312 (14)0.0295 (14)0.0009 (11)0.0047 (11)0.0020 (11)
C5_40.0207 (12)0.0309 (14)0.0287 (13)0.0030 (11)0.0035 (11)0.0016 (11)
S2_40.0243 (3)0.0262 (3)0.0310 (3)0.0040 (3)0.0067 (3)0.0041 (3)
C6_40.0235 (12)0.0294 (14)0.0325 (14)0.0012 (11)0.0022 (11)0.0058 (11)
C7_40.0247 (13)0.0257 (13)0.0345 (15)0.0006 (11)0.0046 (11)0.0050 (11)
C8_40.0178 (11)0.0270 (13)0.0304 (14)0.0002 (10)0.0027 (10)0.0012 (11)
C9_40.0210 (12)0.0248 (13)0.0297 (13)0.0009 (10)0.0036 (10)0.0005 (10)
S3_40.0331 (4)0.0315 (4)0.0362 (4)0.0083 (3)0.0092 (3)0.0040 (3)
C12_40.0293 (14)0.0382 (16)0.0325 (15)0.0046 (12)0.0095 (12)0.0010 (12)
C11_40.0298 (14)0.0321 (15)0.0332 (15)0.0035 (12)0.0073 (12)0.0081 (12)
C10_40.0199 (12)0.0328 (14)0.0259 (13)0.0010 (11)0.0036 (10)0.0072 (11)
C3_50.0234 (12)0.0299 (14)0.0229 (12)0.0035 (11)0.0020 (10)0.0021 (10)
C2_50.0340 (16)0.0368 (17)0.0386 (17)0.0002 (13)0.0039 (13)0.0019 (13)
C1_50.0293 (15)0.0445 (18)0.0416 (17)0.0001 (13)0.0099 (13)0.0042 (14)
S1_50.0308 (4)0.0382 (4)0.0442 (4)0.0037 (3)0.0090 (3)0.0025 (3)
C4_50.0194 (12)0.0315 (14)0.0351 (15)0.0005 (11)0.0040 (11)0.0057 (12)
C5_50.0211 (12)0.0285 (14)0.0328 (14)0.0001 (11)0.0005 (11)0.0050 (11)
S2_50.0237 (3)0.0255 (3)0.0361 (4)0.0027 (3)0.0051 (3)0.0007 (3)
C6_50.0265 (13)0.0298 (14)0.0361 (15)0.0026 (11)0.0038 (12)0.0044 (12)
C7_50.0272 (13)0.0306 (14)0.0334 (15)0.0011 (12)0.0022 (12)0.0040 (12)
C8_50.0219 (12)0.0285 (14)0.0306 (14)0.0021 (11)0.0005 (11)0.0018 (11)
C9A_50.0232 (13)0.0310 (14)0.0344 (15)0.0046 (11)0.0019 (11)0.0060 (12)
S3A_50.0342 (6)0.0349 (8)0.0407 (6)0.0041 (5)0.0062 (6)0.0014 (5)
C12A_50.037 (3)0.048 (4)0.038 (3)0.016 (3)0.014 (2)0.016 (3)
C11A_50.026 (2)0.034 (3)0.052 (4)0.005 (2)0.005 (3)0.011 (3)
C10A_50.034 (3)0.027 (4)0.045 (5)0.003 (3)0.001 (3)0.002 (3)
C9B_50.0232 (13)0.0310 (14)0.0344 (15)0.0046 (11)0.0019 (11)0.0060 (12)
C3_60.0217 (12)0.0302 (14)0.0293 (14)0.0001 (11)0.0046 (11)0.0052 (11)
C2_60.0340 (16)0.0395 (17)0.0371 (16)0.0008 (13)0.0082 (13)0.0032 (13)
C1_60.0420 (18)0.0461 (19)0.0387 (17)0.0058 (15)0.0117 (15)0.0006 (15)
S1_60.0410 (4)0.0371 (4)0.0401 (4)0.0002 (3)0.0081 (4)0.0060 (3)
C4_60.0262 (13)0.0276 (13)0.0321 (14)0.0038 (11)0.0027 (11)0.0029 (11)
C5_60.0242 (13)0.0251 (13)0.0316 (14)0.0020 (10)0.0001 (11)0.0014 (11)
S2_60.0267 (3)0.0231 (3)0.0319 (3)0.0038 (3)0.0040 (3)0.0022 (3)
C6_60.0283 (14)0.0243 (13)0.0349 (15)0.0012 (11)0.0009 (12)0.0045 (11)
C7_60.0246 (13)0.0257 (13)0.0393 (16)0.0040 (11)0.0002 (12)0.0012 (12)
C8_60.0223 (12)0.0262 (13)0.0306 (14)0.0024 (10)0.0012 (11)0.0021 (11)
C9_60.0204 (12)0.0292 (14)0.0339 (15)0.0043 (11)0.0030 (11)0.0030 (11)
S3_60.0361 (4)0.0388 (4)0.0422 (4)0.0102 (3)0.0072 (3)0.0017 (3)
C12_60.0308 (15)0.0456 (19)0.0385 (17)0.0055 (14)0.0076 (13)0.0018 (14)
C11_60.0345 (15)0.0380 (17)0.0347 (16)0.0042 (13)0.0079 (13)0.0029 (13)
C10_60.0192 (11)0.0341 (14)0.0241 (12)0.0017 (11)0.0019 (10)0.0019 (11)
C5B_70.0215 (15)0.0281 (18)0.0372 (18)0.0005 (14)0.0009 (13)0.0047 (14)
S2B_70.0273 (4)0.0254 (4)0.0378 (4)0.0017 (3)0.0050 (3)0.0006 (3)
C6B_70.0285 (16)0.0259 (15)0.0430 (19)0.0022 (13)0.0027 (14)0.0009 (14)
C7B_70.0284 (16)0.0314 (17)0.0391 (18)0.0037 (13)0.0017 (14)0.0029 (15)
C8B_70.0248 (15)0.0303 (16)0.0362 (17)0.0073 (13)0.0017 (13)0.0004 (13)
C9B_70.0275 (18)0.036 (2)0.040 (2)0.0033 (19)0.0003 (14)0.0038 (18)
S3B_70.0372 (13)0.0392 (11)0.0355 (14)0.0075 (8)0.0064 (10)0.0046 (9)
C12B_70.036 (2)0.038 (2)0.037 (2)0.0044 (17)0.0084 (17)0.0010 (17)
C11B_70.028 (3)0.024 (3)0.035 (4)0.010 (2)0.004 (2)0.003 (3)
C10B_70.016 (2)0.022 (3)0.013 (3)0.0048 (16)0.006 (2)0.010 (2)
C3B_70.0239 (19)0.034 (2)0.0219 (19)0.0018 (15)0.0005 (15)0.0081 (16)
C2B_70.032 (2)0.030 (2)0.034 (2)0.0012 (16)0.0109 (18)0.0006 (18)
C1B_70.033 (2)0.037 (3)0.034 (3)0.0043 (19)0.007 (2)0.003 (2)
S1B_70.0296 (6)0.0306 (4)0.0403 (6)0.0070 (4)0.0082 (4)0.0006 (4)
C4B_70.0185 (15)0.0323 (18)0.0354 (19)0.0007 (13)0.0012 (12)0.0060 (14)
C4C_70.0185 (15)0.0323 (18)0.0354 (19)0.0007 (13)0.0012 (12)0.0060 (14)
C9C_70.0275 (18)0.036 (2)0.040 (2)0.0033 (19)0.0003 (14)0.0038 (18)
C3_80.0192 (12)0.0372 (15)0.0254 (13)0.0003 (11)0.0016 (10)0.0016 (11)
C2_80.0271 (14)0.0453 (18)0.0366 (16)0.0051 (13)0.0026 (13)0.0007 (14)
C1_80.0318 (16)0.054 (2)0.0358 (16)0.0021 (15)0.0070 (13)0.0017 (15)
S1_80.0335 (4)0.0449 (5)0.0399 (4)0.0030 (3)0.0081 (3)0.0084 (4)
C4_80.0259 (13)0.0375 (15)0.0246 (13)0.0042 (12)0.0028 (11)0.0027 (11)
C5_80.0261 (13)0.0292 (14)0.0244 (13)0.0035 (11)0.0004 (11)0.0035 (11)
S2_80.0277 (3)0.0253 (3)0.0282 (3)0.0000 (3)0.0047 (3)0.0034 (3)
C6_80.0306 (14)0.0298 (14)0.0285 (14)0.0043 (12)0.0008 (12)0.0049 (11)
C7_80.0312 (14)0.0231 (13)0.0320 (15)0.0002 (11)0.0028 (12)0.0017 (11)
C8_80.0274 (13)0.0249 (13)0.0243 (13)0.0020 (11)0.0022 (11)0.0019 (10)
C9A_80.0281 (13)0.0314 (14)0.0259 (13)0.0042 (11)0.0025 (11)0.0072 (11)
S3A_80.0300 (8)0.0365 (9)0.0358 (9)0.0055 (6)0.0021 (5)0.0059 (7)
C12A_80.024 (2)0.048 (4)0.035 (3)0.005 (2)0.009 (2)0.006 (3)
C11A_80.033 (3)0.047 (4)0.044 (4)0.011 (3)0.006 (3)0.001 (3)
C10A_80.029 (3)0.027 (4)0.063 (5)0.000 (3)0.002 (2)0.005 (3)
C9B_80.0281 (13)0.0314 (14)0.0259 (13)0.0042 (11)0.0025 (11)0.0072 (11)
C4A_90.0260 (13)0.0421 (17)0.0298 (14)0.0020 (12)0.0040 (12)0.0056 (13)
C3A_90.016 (3)0.028 (4)0.036 (4)0.005 (2)0.0022 (17)0.001 (2)
C2A_90.053 (5)0.060 (5)0.041 (4)0.027 (4)0.019 (4)0.009 (3)
C1A_90.0134 (18)0.079 (5)0.046 (3)0.011 (2)0.0096 (19)0.029 (3)
S1A_90.0288 (5)0.0434 (7)0.0393 (6)0.0039 (5)0.0061 (5)0.0044 (5)
C4B_90.0260 (13)0.0421 (17)0.0298 (14)0.0020 (12)0.0040 (12)0.0056 (13)
C5_90.0272 (13)0.0321 (14)0.0297 (14)0.0016 (11)0.0057 (11)0.0028 (11)
S2_90.0268 (3)0.0265 (3)0.0313 (3)0.0008 (3)0.0063 (3)0.0027 (3)
C6_90.0331 (15)0.0311 (15)0.0304 (14)0.0071 (12)0.0054 (12)0.0018 (12)
C7_90.0334 (15)0.0259 (13)0.0313 (14)0.0014 (12)0.0053 (12)0.0006 (11)
C8_90.0253 (13)0.0266 (13)0.0231 (12)0.0004 (10)0.0019 (10)0.0003 (10)
C9_90.0275 (13)0.0269 (13)0.0243 (13)0.0038 (11)0.0039 (11)0.0005 (10)
S3_90.0323 (4)0.0396 (4)0.0451 (4)0.0010 (3)0.0107 (3)0.0113 (4)
C12_90.0278 (15)0.049 (2)0.0425 (18)0.0004 (14)0.0082 (13)0.0035 (15)
C11_90.0270 (14)0.0447 (18)0.0334 (15)0.0057 (13)0.0050 (12)0.0025 (13)
C10_90.0223 (12)0.0354 (15)0.0268 (13)0.0035 (11)0.0043 (11)0.0007 (11)
C3A_100.038 (2)0.034 (2)0.0236 (15)0.0056 (16)0.0007 (14)0.0028 (14)
C2A_100.049 (2)0.048 (2)0.044 (2)0.0003 (18)0.0039 (18)0.0079 (18)
C1A_100.0414 (19)0.058 (2)0.051 (2)0.0082 (17)0.0061 (17)0.0104 (18)
S1A_100.0458 (5)0.0535 (6)0.0505 (6)0.0132 (5)0.0047 (5)0.0060 (5)
C4A_100.0388 (18)0.0423 (19)0.0326 (17)0.0098 (15)0.0023 (14)0.0000 (14)
C5A_100.0366 (17)0.0393 (18)0.0327 (16)0.0099 (15)0.0021 (14)0.0033 (14)
S2A_100.0402 (4)0.0329 (4)0.0417 (5)0.0012 (3)0.0046 (4)0.0086 (3)
C6A_100.0431 (19)0.0355 (18)0.0368 (18)0.0124 (15)0.0019 (15)0.0061 (14)
C7A_100.0430 (19)0.0288 (16)0.0371 (17)0.0073 (14)0.0036 (15)0.0035 (13)
C8A_100.0409 (18)0.0265 (15)0.0318 (16)0.0038 (13)0.0045 (14)0.0010 (12)
C9A_100.0408 (17)0.0294 (16)0.0279 (15)0.0028 (14)0.0008 (16)0.0014 (12)
S3A_100.0492 (7)0.0393 (6)0.0420 (6)0.0076 (5)0.0031 (6)0.0018 (4)
C12A_100.047 (3)0.053 (3)0.042 (4)0.005 (2)0.012 (2)0.001 (3)
C11A_100.057 (3)0.040 (3)0.053 (4)0.003 (4)0.022 (2)0.005 (2)
C10A_100.046 (3)0.031 (3)0.047 (3)0.009 (2)0.012 (2)0.003 (2)
C9B_100.0408 (17)0.0294 (16)0.0279 (15)0.0028 (14)0.0008 (16)0.0014 (12)
C3_110.029 (3)0.056 (5)0.037 (4)0.017 (3)0.004 (3)0.027 (3)
C2_110.015 (3)0.058 (5)0.064 (5)0.000 (3)0.003 (3)0.007 (4)
C1_110.030 (5)0.073 (9)0.042 (7)0.003 (5)0.003 (5)0.007 (6)
S1_110.0485 (14)0.0398 (11)0.0441 (13)0.0061 (10)0.0025 (10)0.0137 (8)
C4_110.044 (6)0.058 (7)0.017 (5)0.004 (5)0.009 (4)0.015 (5)
C5_110.035 (4)0.042 (4)0.020 (3)0.004 (3)0.002 (3)0.004 (3)
S2_110.0324 (8)0.0423 (9)0.0358 (8)0.0039 (7)0.0043 (6)0.0109 (7)
C6_110.050 (4)0.042 (4)0.035 (3)0.017 (3)0.014 (3)0.010 (3)
C7_110.040 (4)0.055 (4)0.041 (4)0.016 (4)0.005 (3)0.015 (3)
C8_110.031 (3)0.064 (6)0.030 (4)0.011 (4)0.000 (3)0.011 (4)
C9_110.031 (5)0.019 (3)0.055 (8)0.004 (3)0.001 (5)0.017 (4)
S3_110.0431 (12)0.0408 (10)0.0515 (12)0.0037 (9)0.0012 (10)0.0002 (9)
C12_110.085 (10)0.039 (5)0.067 (10)0.019 (6)0.045 (8)0.012 (5)
C11_110.065 (7)0.047 (6)0.041 (5)0.002 (5)0.004 (4)0.001 (4)
C10_110.024 (3)0.069 (5)0.041 (4)0.006 (3)0.001 (3)0.016 (4)
Geometric parameters (Å, º) top
C3B_1—C4B_11.411 (5)C6_6—H6_60.9500
C3B_1—C2B_11.452 (6)C7_6—C8_61.374 (4)
C3B_1—H3B_10.9500C7_6—H7_60.9500
C2B_1—C1B_11.370 (6)C8_6—C9_61.450 (4)
C2B_1—H2B_10.9500C9_6—C10_61.428 (4)
C1B_1—S1B_11.679 (4)C9_6—S3_61.723 (3)
C1B_1—H1B_10.9500S3_6—C12_61.706 (4)
S1B_1—C4B_11.715 (3)C12_6—C11_61.361 (5)
C4B_1—C5B_11.451 (5)C12_6—H12_60.9500
C5B_1—C6B_11.374 (5)C11_6—C10_61.449 (4)
C5B_1—S2B_11.737 (4)C11_6—H11_60.9500
S2B_1—C8B_11.731 (4)C10_6—H10_60.9500
C6B_1—C7B_11.413 (6)C5B_7—C6B_71.382 (5)
C6B_1—H6B_10.9500C5B_7—C4B_71.438 (5)
C7B_1—C8B_11.373 (5)C5B_7—S2B_71.734 (4)
C7B_1—H7B_10.9500S2B_7—C8B_71.736 (4)
C8B_1—C9B_11.447 (5)C6B_7—C7B_71.415 (5)
C9B_1—C10B_11.557 (13)C6B_7—H6B_70.9500
C9B_1—S3B_11.707 (5)C7B_7—C8B_71.362 (5)
S3B_1—C12B_11.727 (9)C7B_7—H7B_70.9500
C12B_1—C11B_11.362 (9)C8B_7—C9B_71.444 (5)
C12B_1—H12B_10.9500C9B_7—C10B_71.488 (8)
C11B_1—C10B_11.294 (13)C9B_7—S3B_71.673 (5)
C11B_1—H11B_10.9500S3B_7—C12B_71.698 (8)
C10B_1—H10B_10.9500C12B_7—C11B_71.375 (9)
C3A_1—C4A_11.420 (14)C12B_7—H12B_70.9500
C3A_1—C2A_11.471 (17)C11B_7—C10B_71.504 (11)
C3A_1—H3A_10.9500C11B_7—H11B_70.9500
C2A_1—C1A_11.366 (17)C10B_7—H10B_70.9500
C2A_1—H2A_10.9500C3B_7—C4B_71.394 (8)
C1A_1—S1A_11.648 (11)C3B_7—C2B_71.447 (7)
C1A_1—H1A_10.9500C3B_7—H3B_70.9500
S1A_1—C4A_11.693 (10)C2B_7—C1B_71.358 (6)
C4A_1—C5A_11.444 (11)C2B_7—H2B_70.9500
S2A_1—C8A_11.724 (14)C1B_7—S1B_71.711 (6)
S2A_1—C5A_11.729 (14)C1B_7—H1B_70.9500
C5A_1—C6A_11.383 (16)S1B_7—C4B_71.720 (4)
C6A_1—C7A_11.406 (16)C3C_7—C2C_71.44 (2)
C6A_1—H6A_10.9500C3C_7—C4C_71.42 (2)
C7A_1—C8A_11.380 (15)C3C_7—H3C_70.9500
C7A_1—H7A_10.9500C2C_7—C1C_71.360 (18)
C8A_1—C9A_11.458 (13)C2C_7—S1C_72.35 (6)
C9A_1—C10A_11.595 (19)C2C_7—H2C_70.9500
C9A_1—S3A_11.654 (14)C1C_7—S1C_71.696 (19)
S3A_1—C12A_11.733 (18)C1C_7—H1C_70.9500
C12A_1—C11A_11.354 (18)S1C_7—C4C_71.633 (16)
C12A_1—H12A_10.9500C3A_7—C4A_71.415 (17)
C11A_1—C10A_11.29 (2)C3A_7—C2A_71.439 (17)
C11A_1—H11A_10.9500C3A_7—H3A_70.9500
C10A_1—H10A_10.9500C2A_7—C1A_71.371 (6)
C9C_1—C10C_11.593 (19)C2A_7—H2A_70.9500
C9C_1—S3C_11.594 (8)C1A_7—S1A_71.697 (16)
S3C_1—C12C_11.749 (16)C1A_7—H1A_70.9500
C12C_1—C11C_11.357 (15)S1A_7—C4A_71.709 (15)
C12C_1—H12C_10.9500C4A_7—C5A_71.443 (13)
C11C_1—C10C_11.30 (2)C5A_7—C6A_71.392 (16)
C11C_1—H11C_10.9500C5A_7—S2A_71.740 (14)
C10C_1—H10C_10.9500S2A_7—C8A_71.735 (15)
C3A_2—C4A_21.447 (5)C6A_7—C7A_71.413 (16)
C3A_2—C2A_21.463 (4)C6A_7—H6A_70.9500
C3A_2—H3A_20.9500C7A_7—C8A_71.373 (16)
C2A_2—C1A_21.364 (5)C7A_7—H7A_70.9500
C2A_2—H2A_20.9500C8A_7—C9A_71.441 (13)
C1A_2—S1A_21.690 (4)C9A_7—C10A_71.522 (17)
C1A_2—H1A_20.9500C9A_7—S3A_71.644 (14)
S1A_2—C4A_21.714 (3)S3A_7—C12A_71.666 (16)
C4A_2—C5A_21.449 (5)C12A_7—C11A_71.376 (18)
C5A_2—C6A_21.376 (5)C12A_7—H12A_70.9500
C5A_2—S2A_21.728 (3)C11A_7—C10A_71.485 (19)
S2A_2—C8A_21.737 (3)C11A_7—H11A_70.9500
C6A_2—C7A_21.412 (5)C10A_7—H10A_70.9500
C6A_2—H6A_20.9500C9C_7—C10C_71.523 (15)
C7A_2—C8A_21.372 (4)C9C_7—S3C_71.628 (7)
C7A_2—H7A_20.9500S3C_7—C12C_71.635 (11)
C8A_2—C9A_21.446 (4)C12C_7—C11C_71.379 (14)
C9A_2—C10A_21.389 (4)C12C_7—H12C_70.9500
C9A_2—S3A_21.731 (3)C11C_7—C10C_71.486 (16)
S3A_2—C12A_21.707 (4)C11C_7—H11C_70.9500
C12A_2—C11A_21.344 (5)C10C_7—H10C_70.9500
C12A_2—H12A_20.9500C9D_7—C10D_71.35 (5)
C11A_2—C10A_21.444 (5)C9D_7—S3D_71.79 (3)
C11A_2—H11A_20.9500S3D_7—C12D_71.61 (6)
C10A_2—H10A_20.9500C12D_7—C11D_71.38 (6)
C3B_2—C2B_21.475 (17)C12D_7—H12D_70.9500
C3B_2—C4B_21.473 (15)C11D_7—C10D_71.57 (6)
C3B_2—H3B_20.9500C11D_7—H11D_70.9500
C2B_2—C1B_21.362 (17)C10D_7—H10D_70.9500
C2B_2—H2B_20.9500C3_8—C4_81.420 (4)
C1B_2—S1B_21.712 (14)C3_8—C2_81.437 (4)
C1B_2—H1B_20.9500C3_8—H3_80.9500
S1B_2—C4B_21.652 (13)C2_8—C1_81.363 (5)
C4B_2—C5B_21.462 (12)C2_8—H2_80.9500
C5B_2—C6B_21.382 (17)C1_8—S1_81.699 (4)
C5B_2—S2B_21.734 (15)C1_8—H1_80.9500
S2B_2—C8B_21.736 (16)S1_8—C4_81.724 (3)
C6B_2—C7B_21.413 (16)C4_8—C5_81.447 (4)
C6B_2—H6B_20.9500C5_8—C6_81.368 (4)
C7B_2—C8B_21.367 (16)C5_8—S2_81.739 (3)
C7B_2—H7B_20.9500S2_8—C8_81.728 (3)
C8B_2—C9B_21.446 (6)C6_8—C7_81.414 (4)
C9B_2—C10B_21.403 (15)C6_8—H6_80.9500
C9B_2—S3B_21.733 (13)C7_8—C8_81.379 (4)
S3B_2—C12B_21.727 (14)C7_8—H7_80.9500
C12B_2—C11B_21.327 (17)C8_8—C9B_81.454 (4)
C12B_2—H12B_20.9500C8_8—C9A_81.454 (4)
C11B_2—C10B_21.448 (18)C9A_8—C10A_81.459 (12)
C11B_2—H11B_20.9500C9A_8—S3A_81.679 (4)
C10B_2—H10B_20.9500S3A_8—C12A_81.714 (8)
C3B_3—C4B_31.411 (6)C12A_8—C11A_81.367 (9)
C3B_3—C2B_31.458 (5)C12A_8—H12A_80.9500
C3B_3—H3B_30.9500C11A_8—C10A_81.373 (14)
C2B_3—C1B_31.361 (6)C11A_8—H11A_80.9500
C2B_3—H2B_30.9500C10A_8—H10A_80.9500
C1B_3—S1B_31.697 (5)C9B_8—C10B_81.487 (16)
C1B_3—H1B_30.9500C9B_8—S3B_81.613 (7)
S1B_3—C4B_31.732 (4)S3B_8—C12B_81.737 (14)
C4B_3—C5B_31.450 (6)C12B_8—C11B_81.372 (14)
C5B_3—C6B_31.362 (5)C12B_8—H12B_80.9500
C5B_3—S2B_31.736 (3)C11B_8—C10B_81.354 (19)
S2B_3—C8B_31.735 (4)C11B_8—H11B_80.9500
C6B_3—C7B_31.422 (5)C10B_8—H10B_80.9500
C6B_3—H6B_30.9500C4A_9—C5_91.447 (4)
C7B_3—C8B_31.371 (4)C4A_9—C3A_91.467 (13)
C7B_3—H7B_30.9500C4A_9—S1A_91.651 (3)
C8B_3—C9B_31.449 (5)C3A_9—C2A_91.430 (14)
C9B_3—C10B_31.441 (14)C3A_9—H3A_90.9500
C9B_3—S3B_31.688 (5)C2A_9—C1A_91.383 (10)
S3B_3—C12B_31.692 (9)C2A_9—H2A_90.9500
C12B_3—C11B_31.366 (11)C1A_9—S1A_91.647 (8)
C12B_3—H12B_30.9500C1A_9—H1A_90.9500
C11B_3—C10B_31.472 (17)C4B_9—C5_91.447 (4)
C11B_3—H11B_30.9500C4B_9—C3B_91.492 (18)
C10B_3—H10B_30.9500C4B_9—S1B_91.627 (8)
C3A_3—C4A_31.405 (17)C3B_9—C2B_91.42 (2)
C3A_3—C2A_31.474 (17)C3B_9—H3B_90.9500
C3A_3—H3A_30.9500C2B_9—C1B_91.360 (16)
C2A_3—C1A_31.353 (19)C2B_9—H2B_90.9500
C2A_3—H2A_30.9500C1B_9—S1B_91.676 (16)
C1A_3—S1A_31.678 (19)C1B_9—H1B_90.9500
C1A_3—H1A_30.9500C5_9—C6_91.376 (4)
S1A_3—C4A_31.750 (16)C5_9—S2_91.734 (3)
C4A_3—C5A_31.447 (14)S2_9—C8_91.735 (3)
C5A_3—C6A_31.377 (16)C6_9—C7_91.409 (4)
C5A_3—S2A_31.732 (14)C6_9—H6_90.9500
S2A_3—C8A_31.709 (14)C7_9—C8_91.371 (4)
C6A_3—C7A_31.401 (16)C7_9—H7_90.9500
C6A_3—H6A_30.9500C8_9—C9_91.446 (4)
C7A_3—C8A_31.387 (16)C9_9—C10_91.408 (4)
C7A_3—H7A_30.9500C9_9—S3_91.720 (3)
C8A_3—C9A_31.443 (13)S3_9—C12_91.701 (4)
C9A_3—C10A_31.47 (2)C12_9—C11_91.359 (5)
C9A_3—S3A_31.641 (15)C12_9—H12_90.9500
S3A_3—C12A_31.694 (18)C11_9—C10_91.427 (4)
C12A_3—C11A_31.359 (19)C11_9—H11_90.9500
C12A_3—H12A_30.9500C10_9—H10_90.9500
C11A_3—C10A_31.47 (2)C3A_10—C2A_101.416 (6)
C11A_3—H11A_30.9500C3A_10—C4A_101.427 (6)
C10A_3—H10A_30.9500C3A_10—H3A_100.9500
C9C_3—C10C_31.48 (2)C2A_10—C1A_101.358 (6)
C9C_3—S3C_31.605 (12)C2A_10—H2A_100.9500
S3C_3—C12C_31.715 (18)C1A_10—S1A_101.709 (5)
C12C_3—C11C_31.357 (18)C1A_10—H1A_100.9500
C12C_3—H12C_30.9500S1A_10—C4A_101.731 (4)
C11C_3—C10C_31.47 (2)C4A_10—C5A_101.446 (5)
C11C_3—H11C_30.9500C5A_10—C6A_101.373 (5)
C10C_3—H10C_30.9500C5A_10—S2A_101.730 (4)
C3_4—C4_41.452 (4)S2A_10—C8A_101.735 (4)
C3_4—C2_41.465 (4)C6A_10—C7A_101.414 (5)
C3_4—H3_40.9500C6A_10—H6A_100.9500
C2_4—C1_41.362 (5)C7A_10—C8A_101.376 (5)
C2_4—H2_40.9500C7A_10—H7A_100.9500
C1_4—S1_41.688 (4)C8A_10—C9A_101.435 (6)
C1_4—H1_40.9500C9A_10—C10A_101.415 (9)
S1_4—C4_41.718 (3)C9A_10—S3A_101.712 (4)
C4_4—C5_41.449 (4)S3A_10—C12A_101.702 (7)
C5_4—C6_41.377 (4)C12A_10—C11A_101.366 (8)
C5_4—S2_41.733 (3)C12A_10—H12A_100.9500
S2_4—C8_41.732 (3)C11A_10—C10A_101.449 (11)
C6_4—C7_41.412 (4)C11A_10—H11A_100.9500
C6_4—H6_40.9500C10A_10—H10A_100.9500
C7_4—C8_41.373 (4)C9B_10—C10B_101.409 (16)
C7_4—H7_40.9500C9B_10—S3B_101.647 (13)
C8_4—C9_41.455 (4)S3B_10—C12B_101.718 (18)
C9_4—C10_41.403 (4)C12B_10—C11B_101.379 (18)
C9_4—S3_41.722 (3)C12B_10—H12B_100.9500
S3_4—C12_41.707 (3)C11B_10—C10B_101.467 (19)
C12_4—C11_41.361 (4)C11B_10—H11B_100.9500
C12_4—H12_40.9500C10B_10—H10B_100.9500
C11_4—C10_41.440 (4)C3C_10—C4C_101.423 (17)
C11_4—H11_40.9500C3C_10—C2C_101.439 (18)
C10_4—H10_40.9500C3C_10—H3C_100.9500
C3_5—C4_51.415 (4)C2C_10—C1C_101.356 (18)
C3_5—C2_51.418 (4)C2C_10—H2C_100.9500
C3_5—H3_50.9500C1C_10—S1C_101.694 (18)
C2_5—C1_51.367 (5)C1C_10—H1C_100.9500
C2_5—H2_50.9500S1C_10—C4C_101.733 (17)
C1_5—S1_51.691 (4)C4C_10—C5C_101.449 (14)
C1_5—H1_50.9500C5C_10—C6C_101.389 (16)
S1_5—C4_51.727 (3)C5C_10—S2C_101.725 (16)
C4_5—C5_51.449 (4)S2C_10—C8C_101.719 (15)
C5_5—C6_51.371 (4)C6C_10—C7C_101.411 (17)
C5_5—S2_51.731 (3)C6C_10—H6C_100.9500
S2_5—C8_51.738 (3)C7C_10—C8C_101.382 (16)
C6_5—C7_51.415 (4)C7C_10—H7C_100.9500
C6_5—H6_50.9500C8C_10—C9C_101.444 (14)
C7_5—C8_51.368 (4)C9C_10—C10C_101.421 (17)
C7_5—H7_50.9500C9C_10—S3C_101.678 (14)
C8_5—C9B_51.454 (4)S3C_10—C12C_101.708 (18)
C8_5—C9A_51.454 (4)C12C_10—C11C_101.370 (19)
C9A_5—C10A_51.458 (10)C12C_10—H12C_100.9500
C9A_5—S3A_51.674 (3)C11C_10—C10C_101.449 (19)
S3A_5—C12A_51.721 (8)C11C_10—H11C_100.9500
C12A_5—C11A_51.378 (9)C10C_10—H10C_100.9500
C12A_5—H12A_50.9500C3_11—C4_111.422 (4)
C11A_5—C10A_51.302 (13)C3_11—C2_111.470 (5)
C11A_5—H11A_50.9500C3_11—H3_110.9500
C10A_5—H10A_50.9500C2_11—C1_111.373 (5)
C9B_5—C10B_51.485 (15)C2_11—H2_110.9500
C9B_5—S3B_51.612 (7)C1_11—S1_111.704 (5)
S3B_5—C12B_51.770 (14)C1_11—H1_110.9500
C12B_5—C11B_51.352 (14)S1_11—C4_111.727 (4)
C12B_5—H12B_50.9500C4_11—C5_111.450 (4)
C11B_5—C10B_51.304 (19)C5_11—C6_111.370 (4)
C11B_5—H11B_50.9500C5_11—S2_111.734 (4)
C10B_5—H10B_50.9500S2_11—C8_111.738 (4)
C3_6—C4_61.425 (4)C6_11—C7_111.423 (4)
C3_6—C2_61.452 (4)C6_11—H6_110.9500
C3_6—H3_60.9500C7_11—C8_111.388 (4)
C2_6—C1_61.355 (5)C7_11—H7_110.9500
C2_6—H2_60.9500C8_11—C9_111.440 (4)
C1_6—S1_61.696 (4)C9_11—C10_111.397 (5)
C1_6—H1_60.9500C9_11—S3_111.727 (4)
S1_6—C4_61.725 (3)S3_11—C12_111.708 (5)
C4_6—C5_61.459 (4)C12_11—C11_111.361 (5)
C5_6—C6_61.372 (4)C12_11—H12_110.9500
C5_6—S2_61.732 (3)C11_11—C10_111.411 (5)
S2_6—C8_61.735 (3)C11_11—H11_110.9500
C6_6—C7_61.418 (4)C10_11—H10_110.9500
C4B_1—C3B_1—C2B_1107.6 (4)C8_6—C7_6—H7_6123.1
C4B_1—C3B_1—H3B_1126.2C6_6—C7_6—H7_6123.1
C2B_1—C3B_1—H3B_1126.2C7_6—C8_6—C9_6129.6 (3)
C1B_1—C2B_1—C3B_1115.0 (5)C7_6—C8_6—S2_6110.3 (2)
C1B_1—C2B_1—H2B_1122.5C9_6—C8_6—S2_6120.1 (2)
C3B_1—C2B_1—H2B_1122.5C10_6—C9_6—C8_6126.8 (3)
C2B_1—C1B_1—S1B_1111.6 (3)C10_6—C9_6—S3_6112.7 (2)
C2B_1—C1B_1—H1B_1124.2C8_6—C9_6—S3_6120.4 (2)
S1B_1—C1B_1—H1B_1124.2C12_6—S3_6—C9_692.08 (16)
C1B_1—S1B_1—C4B_192.80 (19)C11_6—C12_6—S3_6112.3 (3)
C3B_1—C4B_1—C5B_1126.0 (3)C11_6—C12_6—H12_6123.9
C3B_1—C4B_1—S1B_1113.0 (3)S3_6—C12_6—H12_6123.9
C5B_1—C4B_1—S1B_1120.9 (2)C12_6—C11_6—C10_6114.8 (3)
C6B_1—C5B_1—C4B_1128.4 (3)C12_6—C11_6—H11_6122.6
C6B_1—C5B_1—S2B_1110.6 (3)C10_6—C11_6—H11_6122.6
C4B_1—C5B_1—S2B_1121.0 (2)C9_6—C10_6—C11_6108.2 (3)
C8B_1—S2B_1—C5B_192.06 (18)C9_6—C10_6—H10_6125.9
C5B_1—C6B_1—C7B_1113.3 (4)C11_6—C10_6—H10_6125.9
C5B_1—C6B_1—H6B_1123.3C6B_7—C5B_7—C4B_7128.4 (4)
C7B_1—C6B_1—H6B_1123.3C6B_7—C5B_7—S2B_7110.8 (3)
C8B_1—C7B_1—C6B_1113.1 (3)C4B_7—C5B_7—S2B_7120.8 (3)
C8B_1—C7B_1—H7B_1123.5C5B_7—S2B_7—C8B_792.05 (18)
C6B_1—C7B_1—H7B_1123.5C5B_7—C6B_7—C7B_7112.5 (3)
C7B_1—C8B_1—C9B_1127.7 (4)C5B_7—C6B_7—H6B_7123.8
C7B_1—C8B_1—S2B_1110.9 (3)C7B_7—C6B_7—H6B_7123.8
C9B_1—C8B_1—S2B_1121.4 (3)C8B_7—C7B_7—C6B_7114.0 (3)
C8B_1—C9B_1—C10B_1129.9 (5)C8B_7—C7B_7—H7B_7123.0
C8B_1—C9B_1—S3B_1122.3 (3)C6B_7—C7B_7—H7B_7123.0
C10B_1—C9B_1—S3B_1107.8 (4)C7B_7—C8B_7—C9B_7127.9 (3)
C9B_1—S3B_1—C12B_192.9 (3)C7B_7—C8B_7—S2B_7110.7 (3)
C11B_1—C12B_1—S3B_1110.9 (5)C9B_7—C8B_7—S2B_7121.4 (3)
C11B_1—C12B_1—H12B_1124.6C8B_7—C9B_7—C10B_7119.6 (4)
S3B_1—C12B_1—H12B_1124.6C8B_7—C9B_7—S3B_7125.9 (4)
C10B_1—C11B_1—C12B_1118.5 (8)C10B_7—C9B_7—S3B_7114.5 (4)
C10B_1—C11B_1—H11B_1120.7C9B_7—S3B_7—C12B_794.6 (3)
C12B_1—C11B_1—H11B_1120.7C11B_7—C12B_7—S3B_7110.7 (5)
C11B_1—C10B_1—C9B_1109.9 (7)C11B_7—C12B_7—H12B_7124.7
C11B_1—C10B_1—H10B_1125.1S3B_7—C12B_7—H12B_7124.7
C9B_1—C10B_1—H10B_1125.1C12B_7—C11B_7—C10B_7116.7 (6)
C4A_1—C3A_1—C2A_1107.2 (11)C12B_7—C11B_7—H11B_7121.7
C4A_1—C3A_1—H3A_1126.4C10B_7—C11B_7—H11B_7121.7
C2A_1—C3A_1—H3A_1126.4C11B_7—C10B_7—C9B_7103.5 (6)
C1A_1—C2A_1—C3A_1114.3 (12)C11B_7—C10B_7—H10B_7128.2
C1A_1—C2A_1—H2A_1122.8C9B_7—C10B_7—H10B_7128.2
C3A_1—C2A_1—H2A_1122.8C4B_7—C3B_7—C2B_7111.2 (5)
C2A_1—C1A_1—S1A_1111.3 (8)C4B_7—C3B_7—H3B_7124.4
C2A_1—C1A_1—H1A_1124.3C2B_7—C3B_7—H3B_7124.4
S1A_1—C1A_1—H1A_1124.3C1B_7—C2B_7—C3B_7113.0 (5)
C1A_1—S1A_1—C4A_194.7 (5)C1B_7—C2B_7—H2B_7123.5
C3A_1—C4A_1—C5A_1125.6 (9)C3B_7—C2B_7—H2B_7123.5
C3A_1—C4A_1—S1A_1112.0 (8)C2B_7—C1B_7—S1B_7111.9 (4)
C5A_1—C4A_1—S1A_1122.3 (7)C2B_7—C1B_7—H1B_7124.0
C8A_1—S2A_1—C5A_192.1 (6)S1B_7—C1B_7—H1B_7124.0
C6A_1—C5A_1—C4A_1126.1 (12)C1B_7—S1B_7—C4B_792.7 (2)
C6A_1—C5A_1—S2A_1111.2 (9)C3B_7—C4B_7—C5B_7126.1 (4)
C4A_1—C5A_1—S2A_1122.5 (10)C3B_7—C4B_7—S1B_7111.1 (3)
C5A_1—C6A_1—C7A_1112.2 (11)C5B_7—C4B_7—S1B_7122.6 (4)
C5A_1—C6A_1—H6A_1123.9C2C_7—C3C_7—C4C_7100 (3)
C7A_1—C6A_1—H6A_1123.9C2C_7—C3C_7—H3C_7129.9
C8A_1—C7A_1—C6A_1113.8 (11)C4C_7—C3C_7—H3C_7129.9
C8A_1—C7A_1—H7A_1123.1C1C_7—C2C_7—C3C_7125 (4)
C6A_1—C7A_1—H7A_1123.1C1C_7—C2C_7—S1C_745 (2)
C7A_1—C8A_1—C9A_1125.6 (12)C3C_7—C2C_7—S1C_781 (2)
C7A_1—C8A_1—S2A_1110.6 (9)C1C_7—C2C_7—H2C_7117.4
C9A_1—C8A_1—S2A_1123.8 (10)C3C_7—C2C_7—H2C_7117.4
C8A_1—C9A_1—C10A_1124.5 (13)S1C_7—C2C_7—H2C_7157.8
C8A_1—C9A_1—S3A_1126.8 (11)C2C_7—C1C_7—S1C_7100 (4)
C10A_1—C9A_1—S3A_1108.7 (9)C2C_7—C1C_7—H1C_7130.1
C9A_1—S3A_1—C12A_193.7 (8)S1C_7—C1C_7—H1C_7130.1
C11A_1—C12A_1—S3A_1109.8 (13)C4C_7—S1C_7—C1C_798 (2)
C11A_1—C12A_1—H12A_1125.1C4C_7—S1C_7—C2C_764.0 (12)
S3A_1—C12A_1—H12A_1125.1C1C_7—S1C_7—C2C_734.8 (15)
C10A_1—C11A_1—C12A_1119.6 (19)S1C_7—C4C_7—C3C_7113.8 (19)
C10A_1—C11A_1—H11A_1120.2C4A_7—C3A_7—C2A_7110.4 (11)
C12A_1—C11A_1—H11A_1120.2C4A_7—C3A_7—H3A_7124.8
C11A_1—C10A_1—C9A_1107.2 (14)C2A_7—C3A_7—H3A_7124.8
C11A_1—C10A_1—H10A_1126.4C1A_7—C2A_7—C3A_7113.1 (12)
C9A_1—C10A_1—H10A_1126.4C1A_7—C2A_7—H2A_7123.4
C10C_1—C9C_1—S3C_1110.5 (7)C3A_7—C2A_7—H2A_7123.4
C9C_1—S3C_1—C12C_194.4 (7)C2A_7—C1A_7—S1A_7111.7 (11)
C11C_1—C12C_1—S3C_1108.0 (12)C2A_7—C1A_7—H1A_7124.2
C11C_1—C12C_1—H12C_1126.0S1A_7—C1A_7—H1A_7124.2
S3C_1—C12C_1—H12C_1126.0C1A_7—S1A_7—C4A_793.3 (7)
C10C_1—C11C_1—C12C_1120.0 (16)C3A_7—C4A_7—C5A_7124.9 (14)
C10C_1—C11C_1—H11C_1120.0C3A_7—C4A_7—S1A_7110.9 (10)
C12C_1—C11C_1—H11C_1120.0C5A_7—C4A_7—S1A_7123.7 (13)
C11C_1—C10C_1—C9C_1105.6 (12)C6A_7—C5A_7—C4A_7125.0 (13)
C11C_1—C10C_1—H10C_1127.2C6A_7—C5A_7—S2A_7111.2 (9)
C9C_1—C10C_1—H10C_1127.2C4A_7—C5A_7—S2A_7123.8 (11)
C4A_2—C3A_2—C2A_2107.6 (3)C8A_7—S2A_7—C5A_791.6 (7)
C4A_2—C3A_2—H3A_2126.2C5A_7—C6A_7—C7A_7112.2 (11)
C2A_2—C3A_2—H3A_2126.2C5A_7—C6A_7—H6A_7123.9
C1A_2—C2A_2—C3A_2114.4 (3)C7A_7—C6A_7—H6A_7123.9
C1A_2—C2A_2—H2A_2122.8C8A_7—C7A_7—C6A_7113.7 (12)
C3A_2—C2A_2—H2A_2122.8C8A_7—C7A_7—H7A_7123.1
C2A_2—C1A_2—S1A_2112.8 (3)C6A_7—C7A_7—H7A_7123.1
C2A_2—C1A_2—H1A_2123.6C7A_7—C8A_7—C9A_7125.4 (13)
S1A_2—C1A_2—H1A_2123.6C7A_7—C8A_7—S2A_7111.3 (9)
C1A_2—S1A_2—C4A_292.87 (18)C9A_7—C8A_7—S2A_7123.2 (11)
C5A_2—C4A_2—C3A_2126.4 (3)C8A_7—C9A_7—C10A_7117.6 (14)
C5A_2—C4A_2—S1A_2121.2 (3)C8A_7—C9A_7—S3A_7128.3 (12)
C3A_2—C4A_2—S1A_2112.4 (2)C10A_7—C9A_7—S3A_7113.5 (9)
C6A_2—C5A_2—C4A_2127.9 (3)C9A_7—S3A_7—C12A_795.9 (8)
C6A_2—C5A_2—S2A_2110.3 (3)C11A_7—C12A_7—S3A_7110.7 (11)
C4A_2—C5A_2—S2A_2121.7 (3)C11A_7—C12A_7—H12A_7124.6
C5A_2—S2A_2—C8A_292.50 (17)S3A_7—C12A_7—H12A_7124.7
C5A_2—C6A_2—C7A_2113.6 (3)C12A_7—C11A_7—C10A_7117.0 (12)
C5A_2—C6A_2—H6A_2123.2C12A_7—C11A_7—H11A_7121.5
C7A_2—C6A_2—H6A_2123.2C10A_7—C11A_7—H11A_7121.5
C8A_2—C7A_2—C6A_2113.3 (3)C11A_7—C10A_7—C9A_7102.8 (11)
C8A_2—C7A_2—H7A_2123.4C11A_7—C10A_7—H10A_7128.6
C6A_2—C7A_2—H7A_2123.4C9A_7—C10A_7—H10A_7128.6
C7A_2—C8A_2—C9A_2128.7 (3)C10C_7—C9C_7—S3C_7113.0 (6)
C7A_2—C8A_2—S2A_2110.4 (3)C9C_7—S3C_7—C12C_796.3 (5)
C9A_2—C8A_2—S2A_2120.9 (2)C11C_7—C12C_7—S3C_7111.7 (8)
C10A_2—C9A_2—C8A_2127.3 (3)C11C_7—C12C_7—H12C_7124.1
C10A_2—C9A_2—S3A_2111.7 (2)S3C_7—C12C_7—H12C_7124.1
C8A_2—C9A_2—S3A_2120.9 (2)C12C_7—C11C_7—C10C_7115.4 (10)
C12A_2—S3A_2—C9A_291.88 (16)C12C_7—C11C_7—H11C_7122.3
C11A_2—C12A_2—S3A_2112.3 (3)C10C_7—C11C_7—H11C_7122.3
C11A_2—C12A_2—H12A_2123.9C11C_7—C10C_7—C9C_7102.9 (9)
S3A_2—C12A_2—H12A_2123.9C11C_7—C10C_7—H10C_7128.6
C12A_2—C11A_2—C10A_2113.9 (3)C9C_7—C10C_7—H10C_7128.6
C12A_2—C11A_2—H11A_2123.0C10D_7—C9D_7—S3D_7113.8 (19)
C10A_2—C11A_2—H11A_2123.0C12D_7—S3D_7—C9D_792.7 (16)
C9A_2—C10A_2—C11A_2110.2 (3)C11D_7—C12D_7—S3D_7115.1 (17)
C9A_2—C10A_2—H10A_2124.9C11D_7—C12D_7—H12D_7122.5
C11A_2—C10A_2—H10A_2124.9S3D_7—C12D_7—H12D_7122.5
C2B_2—C3B_2—C4B_2106.1 (10)C12D_7—C11D_7—C10D_7111.7 (19)
C2B_2—C3B_2—H3B_2126.9C12D_7—C11D_7—H11D_7124.1
C4B_2—C3B_2—H3B_2126.9C10D_7—C11D_7—H11D_7124.1
C1B_2—C2B_2—C3B_2115.0 (11)C9D_7—C10D_7—C11D_7106.5 (17)
C1B_2—C2B_2—H2B_2122.5C9D_7—C10D_7—H10D_7126.7
C3B_2—C2B_2—H2B_2122.5C11D_7—C10D_7—H10D_7126.7
C2B_2—C1B_2—S1B_2111.0 (9)C4_8—C3_8—C2_8109.3 (3)
C2B_2—C1B_2—H1B_2124.5C4_8—C3_8—H3_8125.3
S1B_2—C1B_2—H1B_2124.5C2_8—C3_8—H3_8125.3
C4B_2—S1B_2—C1B_294.3 (6)C1_8—C2_8—C3_8114.4 (3)
C5B_2—C4B_2—C3B_2121.9 (10)C1_8—C2_8—H2_8122.8
C5B_2—C4B_2—S1B_2124.6 (8)C3_8—C2_8—H2_8122.8
C3B_2—C4B_2—S1B_2113.4 (8)C2_8—C1_8—S1_8112.0 (3)
C6B_2—C5B_2—C4B_2124.9 (13)C2_8—C1_8—H1_8124.0
C6B_2—C5B_2—S2B_2110.5 (10)S1_8—C1_8—H1_8124.0
C4B_2—C5B_2—S2B_2124.5 (11)C1_8—S1_8—C4_892.44 (17)
C5B_2—S2B_2—C8B_291.7 (7)C3_8—C4_8—C5_8128.0 (3)
C5B_2—C6B_2—C7B_2112.8 (12)C3_8—C4_8—S1_8111.8 (2)
C5B_2—C6B_2—H6B_2123.6C5_8—C4_8—S1_8120.2 (2)
C7B_2—C6B_2—H6B_2123.6C6_8—C5_8—C4_8129.0 (3)
C8B_2—C7B_2—C6B_2113.2 (12)C6_8—C5_8—S2_8110.8 (2)
C8B_2—C7B_2—H7B_2123.4C4_8—C5_8—S2_8120.2 (2)
C6B_2—C7B_2—H7B_2123.4C8_8—S2_8—C5_891.91 (14)
C7B_2—C8B_2—C9B_2129.5 (14)C5_8—C6_8—C7_8113.5 (3)
C7B_2—C8B_2—S2B_2111.0 (8)C5_8—C6_8—H6_8123.3
C9B_2—C8B_2—S2B_2119.5 (11)C7_8—C6_8—H6_8123.3
C10B_2—C9B_2—C8B_2125.2 (11)C8_8—C7_8—C6_8112.7 (3)
C10B_2—C9B_2—S3B_2110.0 (9)C8_8—C7_8—H7_8123.6
C8B_2—C9B_2—S3B_2120.0 (9)C6_8—C7_8—H7_8123.6
C12B_2—S3B_2—C9B_291.1 (6)C7_8—C8_8—C9B_8127.3 (3)
C11B_2—C12B_2—S3B_2112.1 (8)C7_8—C8_8—C9A_8127.3 (3)
C11B_2—C12B_2—H12B_2124.0C7_8—C8_8—S2_8111.1 (2)
S3B_2—C12B_2—H12B_2124.0C9B_8—C8_8—S2_8121.6 (2)
C12B_2—C11B_2—C10B_2113.6 (13)C9A_8—C8_8—S2_8121.6 (2)
C12B_2—C11B_2—H11B_2123.2C8_8—C9A_8—C10A_8128.8 (5)
C10B_2—C11B_2—H11B_2123.2C8_8—C9A_8—S3A_8121.3 (2)
C9B_2—C10B_2—C11B_2108.9 (13)C10A_8—C9A_8—S3A_8109.9 (5)
C9B_2—C10B_2—H10B_2125.6C9A_8—S3A_8—C12A_892.6 (3)
C11B_2—C10B_2—H10B_2125.6C11A_8—C12A_8—S3A_8112.5 (5)
C4B_3—C3B_3—C2B_3109.4 (4)C11A_8—C12A_8—H12A_8123.7
C4B_3—C3B_3—H3B_3125.3S3A_8—C12A_8—H12A_8123.7
C2B_3—C3B_3—H3B_3125.3C12A_8—C11A_8—C10A_8112.6 (7)
C1B_3—C2B_3—C3B_3113.8 (4)C12A_8—C11A_8—H11A_8123.7
C1B_3—C2B_3—H2B_3123.1C10A_8—C11A_8—H11A_8123.7
C3B_3—C2B_3—H2B_3123.1C11A_8—C10A_8—C9A_8112.2 (8)
C2B_3—C1B_3—S1B_3112.5 (4)C11A_8—C10A_8—H10A_8123.9
C2B_3—C1B_3—H1B_3123.7C9A_8—C10A_8—H10A_8123.9
S1B_3—C1B_3—H1B_3123.7C8_8—C9B_8—C10B_8124.1 (8)
C1B_3—S1B_3—C4B_392.5 (3)C8_8—C9B_8—S3B_8124.5 (3)
C3B_3—C4B_3—C5B_3127.7 (4)C10B_8—C9B_8—S3B_8111.2 (7)
C3B_3—C4B_3—S1B_3111.9 (4)C9B_8—S3B_8—C12B_893.0 (6)
C5B_3—C4B_3—S1B_3120.4 (3)C11B_8—C12B_8—S3B_8111.5 (12)
C6B_3—C5B_3—C4B_3129.4 (3)C11B_8—C12B_8—H12B_8124.3
C6B_3—C5B_3—S2B_3111.1 (3)S3B_8—C12B_8—H12B_8124.3
C4B_3—C5B_3—S2B_3119.5 (3)C10B_8—C11B_8—C12B_8112.7 (14)
C8B_3—S2B_3—C5B_391.71 (16)C10B_8—C11B_8—H11B_8123.7
C5B_3—C6B_3—C7B_3113.4 (3)C12B_8—C11B_8—H11B_8123.7
C5B_3—C6B_3—H6B_3123.3C11B_8—C10B_8—C9B_8111.4 (12)
C7B_3—C6B_3—H6B_3123.3C11B_8—C10B_8—H10B_8124.3
C8B_3—C7B_3—C6B_3112.6 (3)C9B_8—C10B_8—H10B_8124.3
C8B_3—C7B_3—H7B_3123.7C5_9—C4A_9—C3A_9126.7 (6)
C6B_3—C7B_3—H7B_3123.7C5_9—C4A_9—S1A_9122.2 (2)
C7B_3—C8B_3—C9B_3127.1 (3)C3A_9—C4A_9—S1A_9111.1 (5)
C7B_3—C8B_3—S2B_3111.2 (3)C2A_9—C3A_9—C4A_9108.4 (9)
C9B_3—C8B_3—S2B_3121.6 (3)C2A_9—C3A_9—H3A_9125.8
C10B_3—C9B_3—C8B_3125.4 (7)C4A_9—C3A_9—H3A_9125.8
C10B_3—C9B_3—S3B_3112.8 (6)C1A_9—C2A_9—C3A_9113.0 (7)
C8B_3—C9B_3—S3B_3121.8 (3)C1A_9—C2A_9—H2A_9123.5
C9B_3—S3B_3—C12B_393.4 (3)C3A_9—C2A_9—H2A_9123.5
C11B_3—C12B_3—S3B_3112.5 (5)C2A_9—C1A_9—S1A_9112.2 (4)
C11B_3—C12B_3—H12B_3123.8C2A_9—C1A_9—H1A_9123.9
S3B_3—C12B_3—H12B_3123.8S1A_9—C1A_9—H1A_9123.9
C12B_3—C11B_3—C10B_3113.5 (7)C1A_9—S1A_9—C4A_995.3 (3)
C12B_3—C11B_3—H11B_3123.2C5_9—C4B_9—C3B_9122.6 (9)
C10B_3—C11B_3—H11B_3123.2C5_9—C4B_9—S1B_9126.6 (4)
C9B_3—C10B_3—C11B_3107.8 (10)C3B_9—C4B_9—S1B_9110.6 (7)
C9B_3—C10B_3—H10B_3126.1C2B_9—C3B_9—C4B_9107.9 (13)
C11B_3—C10B_3—H10B_3126.1C2B_9—C3B_9—H3B_9126.0
C4A_3—C3A_3—C2A_3109.6 (11)C4B_9—C3B_9—H3B_9126.1
C4A_3—C3A_3—H3A_3125.2C1B_9—C2B_9—C3B_9114.3 (15)
C2A_3—C3A_3—H3A_3125.2C1B_9—C2B_9—H2B_9122.9
C1A_3—C2A_3—C3A_3113.4 (13)C3B_9—C2B_9—H2B_9122.9
C1A_3—C2A_3—H2A_3123.3C2B_9—C1B_9—S1B_9111.0 (12)
C3A_3—C2A_3—H2A_3123.3C2B_9—C1B_9—H1B_9124.5
C2A_3—C1A_3—S1A_3112.5 (13)S1B_9—C1B_9—H1B_9124.5
C2A_3—C1A_3—H1A_3123.7C4B_9—S1B_9—C1B_995.9 (7)
S1A_3—C1A_3—H1A_3123.7C6_9—C5_9—C4A_9128.3 (3)
C1A_3—S1A_3—C4A_393.1 (8)C6_9—C5_9—C4B_9128.3 (3)
C3A_3—C4A_3—C5A_3129.7 (14)C6_9—C5_9—S2_9110.5 (2)
C3A_3—C4A_3—S1A_3110.6 (9)C4A_9—C5_9—S2_9121.1 (2)
C5A_3—C4A_3—S1A_3119.6 (13)C4B_9—C5_9—S2_9121.1 (2)
C6A_3—C5A_3—C4A_3127.1 (13)C5_9—S2_9—C8_992.01 (14)
C6A_3—C5A_3—S2A_3109.9 (9)C5_9—C6_9—C7_9113.4 (3)
C4A_3—C5A_3—S2A_3123.0 (11)C5_9—C6_9—H6_9123.3
C8A_3—S2A_3—C5A_392.2 (7)C7_9—C6_9—H6_9123.3
C5A_3—C6A_3—C7A_3114.3 (12)C8_9—C7_9—C6_9113.1 (3)
C5A_3—C6A_3—H6A_3122.9C8_9—C7_9—H7_9123.4
C7A_3—C6A_3—H6A_3122.9C6_9—C7_9—H7_9123.4
C8A_3—C7A_3—C6A_3111.5 (11)C7_9—C8_9—C9_9128.8 (3)
C8A_3—C7A_3—H7A_3124.2C7_9—C8_9—S2_9110.9 (2)
C6A_3—C7A_3—H7A_3124.2C9_9—C8_9—S2_9120.2 (2)
C7A_3—C8A_3—C9A_3124.4 (13)C10_9—C9_9—C8_9127.6 (3)
C7A_3—C8A_3—S2A_3111.8 (9)C10_9—C9_9—S3_9111.3 (2)
C9A_3—C8A_3—S2A_3123.7 (11)C8_9—C9_9—S3_9121.0 (2)
C8A_3—C9A_3—C10A_3123.7 (15)C12_9—S3_9—C9_992.31 (16)
C8A_3—C9A_3—S3A_3123.0 (13)C11_9—C12_9—S3_9112.2 (3)
C10A_3—C9A_3—S3A_3113.1 (9)C11_9—C12_9—H12_9123.9
C9A_3—S3A_3—C12A_394.6 (8)S3_9—C12_9—H12_9123.9
C11A_3—C12A_3—S3A_3111.6 (12)C12_9—C11_9—C10_9113.7 (3)
C11A_3—C12A_3—H12A_3124.2C12_9—C11_9—H11_9123.1
S3A_3—C12A_3—H12A_3124.2C10_9—C11_9—H11_9123.1
C12A_3—C11A_3—C10A_3114.2 (13)C9_9—C10_9—C11_9110.5 (3)
C12A_3—C11A_3—H11A_3122.9C9_9—C10_9—H10_9124.8
C10A_3—C11A_3—H11A_3122.9C11_9—C10_9—H10_9124.8
C11A_3—C10A_3—C9A_3106.4 (14)C2A_10—C3A_10—C4A_10110.1 (4)
C11A_3—C10A_3—H10A_3126.8C2A_10—C3A_10—H3A_10125.0
C9A_3—C10A_3—H10A_3126.8C4A_10—C3A_10—H3A_10125.0
C10C_3—C9C_3—S3C_3113.5 (9)C1A_10—C2A_10—C3A_10115.4 (4)
C9C_3—S3C_3—C12C_395.4 (7)C1A_10—C2A_10—H2A_10122.3
C11C_3—C12C_3—S3C_3110.2 (12)C3A_10—C2A_10—H2A_10122.3
C11C_3—C12C_3—H12C_3124.9C2A_10—C1A_10—S1A_10111.2 (3)
S3C_3—C12C_3—H12C_3124.9C2A_10—C1A_10—H1A_10124.4
C12C_3—C11C_3—C10C_3114.6 (14)S1A_10—C1A_10—H1A_10124.4
C12C_3—C11C_3—H11C_3122.7C1A_10—S1A_10—C4A_1092.7 (2)
C10C_3—C11C_3—H11C_3122.7C3A_10—C4A_10—C5A_10129.9 (4)
C11C_3—C10C_3—C9C_3106.1 (14)C3A_10—C4A_10—S1A_10110.6 (3)
C11C_3—C10C_3—H10C_3127.0C5A_10—C4A_10—S1A_10119.5 (3)
C9C_3—C10C_3—H10C_3127.0C6A_10—C5A_10—C4A_10129.5 (3)
C4_4—C3_4—C2_4107.1 (3)C6A_10—C5A_10—S2A_10110.2 (3)
C4_4—C3_4—H3_4126.4C4A_10—C5A_10—S2A_10120.3 (3)
C2_4—C3_4—H3_4126.4C5A_10—S2A_10—C8A_1092.61 (19)
C1_4—C2_4—C3_4114.7 (3)C5A_10—C6A_10—C7A_10113.8 (3)
C1_4—C2_4—H2_4122.7C5A_10—C6A_10—H6A_10123.1
C3_4—C2_4—H2_4122.7C7A_10—C6A_10—H6A_10123.1
C2_4—C1_4—S1_4112.9 (3)C8A_10—C7A_10—C6A_10112.9 (3)
C2_4—C1_4—H1_4123.5C8A_10—C7A_10—H7A_10123.5
S1_4—C1_4—H1_4123.5C6A_10—C7A_10—H7A_10123.5
C1_4—S1_4—C4_492.75 (16)C7A_10—C8A_10—C9A_10127.7 (3)
C5_4—C4_4—C3_4126.5 (3)C7A_10—C8A_10—S2A_10110.4 (3)
C5_4—C4_4—S1_4121.0 (2)C9A_10—C8A_10—S2A_10121.9 (3)
C3_4—C4_4—S1_4112.5 (2)C10A_10—C9A_10—C8A_10127.0 (4)
C6_4—C5_4—C4_4128.7 (3)C10A_10—C9A_10—S3A_10112.0 (4)
C6_4—C5_4—S2_4111.0 (2)C8A_10—C9A_10—S3A_10121.0 (3)
C4_4—C5_4—S2_4120.2 (2)C12A_10—S3A_10—C9A_1093.5 (2)
C8_4—S2_4—C5_491.88 (14)C11A_10—C12A_10—S3A_10110.7 (5)
C5_4—C6_4—C7_4112.8 (3)C11A_10—C12A_10—H12A_10124.7
C5_4—C6_4—H6_4123.6S3A_10—C12A_10—H12A_10124.7
C7_4—C6_4—H6_4123.6C12A_10—C11A_10—C10A_10115.1 (6)
C8_4—C7_4—C6_4113.4 (3)C12A_10—C11A_10—H11A_10122.4
C8_4—C7_4—H7_4123.3C10A_10—C11A_10—H11A_10122.4
C6_4—C7_4—H7_4123.3C9A_10—C10A_10—C11A_10108.7 (6)
C7_4—C8_4—C9_4129.0 (3)C9A_10—C10A_10—H10A_10125.6
C7_4—C8_4—S2_4110.9 (2)C11A_10—C10A_10—H10A_10125.6
C9_4—C8_4—S2_4120.1 (2)C10B_10—C9B_10—S3B_10114.8 (8)
C10_4—C9_4—C8_4127.1 (3)C9B_10—S3B_10—C12B_1093.8 (8)
C10_4—C9_4—S3_4111.9 (2)C11B_10—C12B_10—S3B_10108.9 (12)
C8_4—C9_4—S3_4121.0 (2)C11B_10—C12B_10—H12B_10125.6
C12_4—S3_4—C9_492.06 (15)S3B_10—C12B_10—H12B_10125.6
C11_4—C12_4—S3_4112.4 (2)C12B_10—C11B_10—C10B_10114.4 (13)
C11_4—C12_4—H12_4123.8C12B_10—C11B_10—H11B_10122.8
S3_4—C12_4—H12_4123.8C10B_10—C11B_10—H11B_10122.8
C12_4—C11_4—C10_4113.4 (3)C9B_10—C10B_10—C11B_10106.6 (11)
C12_4—C11_4—H11_4123.3C9B_10—C10B_10—H10B_10126.7
C10_4—C11_4—H11_4123.3C11B_10—C10B_10—H10B_10126.7
C9_4—C10_4—C11_4110.3 (3)C4C_10—C3C_10—C2C_10110.5 (12)
C9_4—C10_4—H10_4124.9C4C_10—C3C_10—H3C_10124.7
C11_4—C10_4—H10_4124.9C2C_10—C3C_10—H3C_10124.7
C4_5—C3_5—C2_5111.4 (3)C1C_10—C2C_10—C3C_10114.2 (13)
C4_5—C3_5—H3_5124.3C1C_10—C2C_10—H2C_10122.9
C2_5—C3_5—H3_5124.3C3C_10—C2C_10—H2C_10122.9
C1_5—C2_5—C3_5112.9 (3)C2C_10—C1C_10—S1C_10111.9 (11)
C1_5—C2_5—H2_5123.5C2C_10—C1C_10—H1C_10124.0
C3_5—C2_5—H2_5123.5S1C_10—C1C_10—H1C_10124.0
C2_5—C1_5—S1_5112.8 (3)C1C_10—S1C_10—C4C_1093.4 (8)
C2_5—C1_5—H1_5123.6C3C_10—C4C_10—C5C_10132.0 (15)
S1_5—C1_5—H1_5123.6C3C_10—C4C_10—S1C_10110.0 (9)
C1_5—S1_5—C4_592.48 (16)C5C_10—C4C_10—S1C_10118.0 (13)
C3_5—C4_5—C5_5128.5 (3)C6C_10—C5C_10—C4C_10127.4 (14)
C3_5—C4_5—S1_5110.4 (2)C6C_10—C5C_10—S2C_10109.4 (9)
C5_5—C4_5—S1_5121.0 (2)C4C_10—C5C_10—S2C_10121.5 (12)
C6_5—C5_5—C4_5129.0 (3)C8C_10—S2C_10—C5C_1093.4 (7)
C6_5—C5_5—S2_5111.1 (2)C5C_10—C6C_10—C7C_10113.9 (12)
C4_5—C5_5—S2_5119.9 (2)C5C_10—C6C_10—H6C_10123.0
C5_5—S2_5—C8_591.84 (15)C7C_10—C6C_10—H6C_10123.0
C5_5—C6_5—C7_5113.0 (3)C8C_10—C7C_10—C6C_10112.6 (12)
C5_5—C6_5—H6_5123.5C8C_10—C7C_10—H7C_10123.7
C7_5—C6_5—H6_5123.5C6C_10—C7C_10—H7C_10123.7
C8_5—C7_5—C6_5113.3 (3)C7C_10—C8C_10—C9C_10126.5 (14)
C8_5—C7_5—H7_5123.3C7C_10—C8C_10—S2C_10110.6 (9)
C6_5—C7_5—H7_5123.3C9C_10—C8C_10—S2C_10122.4 (12)
C7_5—C8_5—C9B_5128.2 (3)C10C_10—C9C_10—C8C_10126.1 (12)
C7_5—C8_5—C9A_5128.2 (3)C10C_10—C9C_10—S3C_10112.8 (9)
C7_5—C8_5—S2_5110.8 (2)C8C_10—C9C_10—S3C_10121.2 (11)
C9B_5—C8_5—S2_5121.0 (2)C9C_10—S3C_10—C12C_1094.0 (8)
C9A_5—C8_5—S2_5121.0 (2)C11C_10—C12C_10—S3C_10109.8 (12)
C8_5—C9A_5—C10A_5130.0 (5)C11C_10—C12C_10—H12C_10125.1
C8_5—C9A_5—S3A_5121.7 (2)S3C_10—C12C_10—H12C_10125.1
C10A_5—C9A_5—S3A_5108.3 (4)C12C_10—C11C_10—C10C_10115.2 (13)
C9A_5—S3A_5—C12A_592.8 (2)C12C_10—C11C_10—H11C_10122.4
C11A_5—C12A_5—S3A_5110.7 (5)C10C_10—C11C_10—H11C_10122.4
C11A_5—C12A_5—H12A_5124.6C9C_10—C10C_10—C11C_10108.1 (12)
S3A_5—C12A_5—H12A_5124.6C9C_10—C10C_10—H10C_10125.9
C10A_5—C11A_5—C12A_5113.6 (7)C11C_10—C10C_10—H10C_10125.9
C10A_5—C11A_5—H11A_5123.2C4_11—C3_11—C2_11108.7 (3)
C12A_5—C11A_5—H11A_5123.2C4_11—C3_11—H3_11125.7
C11A_5—C10A_5—C9A_5114.5 (7)C2_11—C3_11—H3_11125.7
C11A_5—C10A_5—H10A_5122.7C1_11—C2_11—C3_11113.3 (3)
C9A_5—C10A_5—H10A_5122.7C1_11—C2_11—H2_11123.3
C8_5—C9B_5—C10B_5126.2 (8)C3_11—C2_11—H2_11123.3
C8_5—C9B_5—S3B_5123.3 (3)C2_11—C1_11—S1_11112.6 (3)
C10B_5—C9B_5—S3B_5110.4 (7)C2_11—C1_11—H1_11123.7
C9B_5—S3B_5—C12B_591.9 (6)S1_11—C1_11—H1_11123.7
C11B_5—C12B_5—S3B_5110.8 (11)C1_11—S1_11—C4_1192.2 (2)
C11B_5—C12B_5—H12B_5124.6C3_11—C4_11—C5_11127.2 (4)
S3B_5—C12B_5—H12B_5124.6C3_11—C4_11—S1_11112.6 (2)
C10B_5—C11B_5—C12B_5113.6 (13)C5_11—C4_11—S1_11120.1 (3)
C10B_5—C11B_5—H11B_5123.2C6_11—C5_11—C4_11129.0 (4)
C12B_5—C11B_5—H11B_5123.2C6_11—C5_11—S2_11111.0 (2)
C11B_5—C10B_5—C9B_5113.1 (12)C4_11—C5_11—S2_11119.9 (3)
C11B_5—C10B_5—H10B_5123.4C5_11—S2_11—C8_1192.69 (17)
C9B_5—C10B_5—H10B_5123.4C5_11—C6_11—C7_11112.9 (3)
C4_6—C3_6—C2_6108.8 (3)C5_11—C6_11—H6_11123.5
C4_6—C3_6—H3_6125.6C7_11—C6_11—H6_11123.5
C2_6—C3_6—H3_6125.6C8_11—C7_11—C6_11113.6 (3)
C1_6—C2_6—C3_6114.3 (3)C8_11—C7_11—H7_11123.2
C1_6—C2_6—H2_6122.8C6_11—C7_11—H7_11123.2
C3_6—C2_6—H2_6122.8C7_11—C8_11—C9_11129.6 (4)
C2_6—C1_6—S1_6112.5 (3)C7_11—C8_11—S2_11109.8 (2)
C2_6—C1_6—H1_6123.8C9_11—C8_11—S2_11120.6 (3)
S1_6—C1_6—H1_6123.8C10_11—C9_11—C8_11127.0 (4)
C1_6—S1_6—C4_692.58 (17)C10_11—C9_11—S3_11111.8 (3)
C3_6—C4_6—C5_6127.2 (3)C8_11—C9_11—S3_11120.7 (3)
C3_6—C4_6—S1_6111.8 (2)C12_11—S3_11—C9_1191.7 (2)
C5_6—C4_6—S1_6121.0 (2)C11_11—C12_11—S3_11111.2 (3)
C6_6—C5_6—C4_6128.8 (3)C11_11—C12_11—H12_11124.4
C6_6—C5_6—S2_6111.3 (2)S3_11—C12_11—H12_11124.4
C4_6—C5_6—S2_6119.9 (2)C12_11—C11_11—C10_11114.8 (3)
C5_6—S2_6—C8_692.12 (15)C12_11—C11_11—H11_11122.6
C5_6—C6_6—C7_6112.5 (3)C10_11—C11_11—H11_11122.6
C5_6—C6_6—H6_6123.8C9_11—C10_11—C11_11110.2 (3)
C7_6—C6_6—H6_6123.8C9_11—C10_11—H10_11124.9
C8_6—C7_6—C6_6113.8 (3)C11_11—C10_11—H10_11124.9
C4B_1—C3B_1—C2B_1—C1B_10.6 (5)C4_6—C5_6—C6_6—C7_6179.9 (3)
C3B_1—C2B_1—C1B_1—S1B_10.9 (5)S2_6—C5_6—C6_6—C7_60.8 (3)
C2B_1—C1B_1—S1B_1—C4B_10.7 (4)C5_6—C6_6—C7_6—C8_60.1 (4)
C2B_1—C3B_1—C4B_1—C5B_1179.9 (4)C6_6—C7_6—C8_6—C9_6179.0 (3)
C2B_1—C3B_1—C4B_1—S1B_10.0 (5)C6_6—C7_6—C8_6—S2_60.7 (3)
C1B_1—S1B_1—C4B_1—C3B_10.4 (4)C5_6—S2_6—C8_6—C7_61.0 (2)
C1B_1—S1B_1—C4B_1—C5B_1179.5 (4)C5_6—S2_6—C8_6—C9_6178.8 (2)
C3B_1—C4B_1—C5B_1—C6B_1174.9 (4)C7_6—C8_6—C9_6—C10_6179.3 (3)
S1B_1—C4B_1—C5B_1—C6B_15.0 (6)S2_6—C8_6—C9_6—C10_61.0 (4)
C3B_1—C4B_1—C5B_1—S2B_16.2 (6)C7_6—C8_6—C9_6—S3_64.4 (4)
S1B_1—C4B_1—C5B_1—S2B_1173.9 (2)S2_6—C8_6—C9_6—S3_6175.34 (16)
C6B_1—C5B_1—S2B_1—C8B_10.6 (3)C10_6—C9_6—S3_6—C12_61.0 (2)
C4B_1—C5B_1—S2B_1—C8B_1179.6 (3)C8_6—C9_6—S3_6—C12_6177.8 (3)
C4B_1—C5B_1—C6B_1—C7B_1179.5 (4)C9_6—S3_6—C12_6—C11_60.2 (3)
S2B_1—C5B_1—C6B_1—C7B_10.5 (4)S3_6—C12_6—C11_6—C10_60.6 (4)
C5B_1—C6B_1—C7B_1—C8B_10.2 (5)C8_6—C9_6—C10_6—C11_6178.0 (3)
C6B_1—C7B_1—C8B_1—C9B_1179.7 (4)S3_6—C9_6—C10_6—C11_61.5 (3)
C6B_1—C7B_1—C8B_1—S2B_10.3 (4)C12_6—C11_6—C10_6—C9_61.3 (4)
C5B_1—S2B_1—C8B_1—C7B_10.5 (3)C6B_7—C5B_7—S2B_7—C8B_70.7 (3)
C5B_1—S2B_1—C8B_1—C9B_1179.5 (4)C4B_7—C5B_7—S2B_7—C8B_7178.1 (3)
C7B_1—C8B_1—C9B_1—C10B_1173.9 (7)C4B_7—C5B_7—C6B_7—C7B_7178.3 (4)
S2B_1—C8B_1—C9B_1—C10B_16.0 (9)S2B_7—C5B_7—C6B_7—C7B_70.3 (4)
C7B_1—C8B_1—C9B_1—S3B_17.9 (7)C5B_7—C6B_7—C7B_7—C8B_70.3 (4)
S2B_1—C8B_1—C9B_1—S3B_1172.2 (3)C6B_7—C7B_7—C8B_7—C9B_7178.0 (4)
C8B_1—C9B_1—S3B_1—C12B_1178.6 (4)C6B_7—C7B_7—C8B_7—S2B_70.8 (4)
C10B_1—C9B_1—S3B_1—C12B_10.1 (6)C5B_7—S2B_7—C8B_7—C7B_70.8 (3)
C9B_1—S3B_1—C12B_1—C11B_10.8 (5)C5B_7—S2B_7—C8B_7—C9B_7178.0 (3)
S3B_1—C12B_1—C11B_1—C10B_11.8 (10)C7B_7—C8B_7—C9B_7—C10B_7177.8 (4)
C12B_1—C11B_1—C10B_1—C9B_11.8 (12)S2B_7—C8B_7—C9B_7—C10B_73.5 (6)
C8B_1—C9B_1—C10B_1—C11B_1179.4 (7)C7B_7—C8B_7—C9B_7—S3B_71.9 (7)
S3B_1—C9B_1—C10B_1—C11B_11.1 (10)S2B_7—C8B_7—C9B_7—S3B_7176.7 (3)
C4A_1—C3A_1—C2A_1—C1A_13 (5)C8B_7—C9B_7—S3B_7—C12B_7179.9 (5)
C3A_1—C2A_1—C1A_1—S1A_17 (4)C10B_7—C9B_7—S3B_7—C12B_70.4 (5)
C2A_1—C1A_1—S1A_1—C4A_16 (2)C9B_7—S3B_7—C12B_7—C11B_70.8 (5)
C2A_1—C3A_1—C4A_1—C5A_1174 (3)S3B_7—C12B_7—C11B_7—C10B_71.0 (7)
C2A_1—C3A_1—C4A_1—S1A_12 (4)C12B_7—C11B_7—C10B_7—C9B_70.7 (7)
C1A_1—S1A_1—C4A_1—C3A_15 (2)C8B_7—C9B_7—C10B_7—C11B_7179.7 (5)
C1A_1—S1A_1—C4A_1—C5A_1171.5 (16)S3B_7—C9B_7—C10B_7—C11B_70.1 (6)
C3A_1—C4A_1—C5A_1—C6A_1180 (3)C4B_7—C3B_7—C2B_7—C1B_70.0 (7)
S1A_1—C4A_1—C5A_1—C6A_14 (4)C3B_7—C2B_7—C1B_7—S1B_70.9 (6)
C3A_1—C4A_1—C5A_1—S2A_15 (4)C2B_7—C1B_7—S1B_7—C4B_71.2 (4)
S1A_1—C4A_1—C5A_1—S2A_1179.3 (14)C2B_7—C3B_7—C4B_7—C5B_7177.3 (4)
C8A_1—S2A_1—C5A_1—C6A_13 (3)C2B_7—C3B_7—C4B_7—S1B_70.9 (6)
C8A_1—S2A_1—C5A_1—C4A_1173 (2)C6B_7—C5B_7—C4B_7—C3B_7178.4 (4)
C4A_1—C5A_1—C6A_1—C7A_1174 (3)S2B_7—C5B_7—C4B_7—C3B_73.0 (6)
S2A_1—C5A_1—C6A_1—C7A_12 (4)C6B_7—C5B_7—C4B_7—S1B_75.5 (6)
C5A_1—C6A_1—C7A_1—C8A_10 (4)S2B_7—C5B_7—C4B_7—S1B_7173.1 (2)
C6A_1—C7A_1—C8A_1—C9A_1179 (4)C1B_7—S1B_7—C4B_7—C3B_71.2 (4)
C6A_1—C7A_1—C8A_1—S2A_12 (4)C1B_7—S1B_7—C4B_7—C5B_7177.8 (4)
C5A_1—S2A_1—C8A_1—C7A_13 (2)C4C_7—C3C_7—C2C_7—C1C_718 (7)
C5A_1—S2A_1—C8A_1—C9A_1178 (4)C4C_7—C3C_7—C2C_7—S1C_76 (3)
C7A_1—C8A_1—C9A_1—C10A_11 (8)C3C_7—C2C_7—C1C_7—S1C_717 (7)
S2A_1—C8A_1—C9A_1—C10A_1180 (5)C2C_7—C1C_7—S1C_7—C4C_78 (4)
C7A_1—C8A_1—C9A_1—S3A_1177 (3)C1C_7—S1C_7—C4C_7—C3C_71 (4)
S2A_1—C8A_1—C9A_1—S3A_12 (6)C2C_7—S1C_7—C4C_7—C3C_76 (3)
C8A_1—C9A_1—S3A_1—C12A_1180 (7)C2C_7—C3C_7—C4C_7—S1C_79 (5)
C10A_1—C9A_1—S3A_1—C12A_12 (7)C4A_7—C3A_7—C2A_7—C1A_78 (6)
C9A_1—S3A_1—C12A_1—C11A_14 (11)C3A_7—C2A_7—C1A_7—S1A_75 (5)
S3A_1—C12A_1—C11A_1—C10A_110 (16)C2A_7—C1A_7—S1A_7—C4A_71 (5)
C12A_1—C11A_1—C10A_1—C9A_111 (14)C2A_7—C3A_7—C4A_7—C5A_7179 (6)
C8A_1—C9A_1—C10A_1—C11A_1174 (7)C2A_7—C3A_7—C4A_7—S1A_77 (7)
S3A_1—C9A_1—C10A_1—C11A_17 (8)C1A_7—S1A_7—C4A_7—C3A_73 (6)
C10C_1—C9C_1—S3C_1—C12C_13 (2)C1A_7—S1A_7—C4A_7—C5A_7176 (7)
C9C_1—S3C_1—C12C_1—C11C_14 (4)C3A_7—C4A_7—C5A_7—C6A_7178 (6)
S3C_1—C12C_1—C11C_1—C10C_112 (6)S1A_7—C4A_7—C5A_7—C6A_76 (10)
C12C_1—C11C_1—C10C_1—C9C_114 (6)C3A_7—C4A_7—C5A_7—S2A_72 (11)
S3C_1—C9C_1—C10C_1—C11C_110 (4)S1A_7—C4A_7—C5A_7—S2A_7174 (4)
C4A_2—C3A_2—C2A_2—C1A_20.7 (4)C6A_7—C5A_7—S2A_7—C8A_70 (3)
C3A_2—C2A_2—C1A_2—S1A_20.3 (4)C4A_7—C5A_7—S2A_7—C8A_7180 (6)
C2A_2—C1A_2—S1A_2—C4A_20.2 (3)C4A_7—C5A_7—C6A_7—C7A_7179 (6)
C2A_2—C3A_2—C4A_2—C5A_2176.8 (3)S2A_7—C5A_7—C6A_7—C7A_70 (4)
C2A_2—C3A_2—C4A_2—S1A_20.8 (3)C5A_7—C6A_7—C7A_7—C8A_71 (5)
C1A_2—S1A_2—C4A_2—C5A_2177.2 (3)C6A_7—C7A_7—C8A_7—C9A_7175 (4)
C1A_2—S1A_2—C4A_2—C3A_20.6 (3)C6A_7—C7A_7—C8A_7—S2A_71 (4)
C3A_2—C4A_2—C5A_2—C6A_2177.9 (3)C5A_7—S2A_7—C8A_7—C7A_71 (3)
S1A_2—C4A_2—C5A_2—C6A_20.5 (5)C5A_7—S2A_7—C8A_7—C9A_7176 (4)
C3A_2—C4A_2—C5A_2—S2A_20.6 (5)C7A_7—C8A_7—C9A_7—C10A_715 (6)
S1A_2—C4A_2—C5A_2—S2A_2176.84 (18)S2A_7—C8A_7—C9A_7—C10A_7168 (2)
C6A_2—C5A_2—S2A_2—C8A_20.7 (3)C7A_7—C8A_7—C9A_7—S3A_7174 (4)
C4A_2—C5A_2—S2A_2—C8A_2178.5 (3)S2A_7—C8A_7—C9A_7—S3A_72 (6)
C4A_2—C5A_2—C6A_2—C7A_2178.5 (3)C8A_7—C9A_7—S3A_7—C12A_7175 (4)
S2A_2—C5A_2—C6A_2—C7A_20.9 (4)C10A_7—C9A_7—S3A_7—C12A_74 (3)
C5A_2—C6A_2—C7A_2—C8A_20.7 (4)C9A_7—S3A_7—C12A_7—C11A_72.3 (19)
C6A_2—C7A_2—C8A_2—C9A_2179.2 (3)S3A_7—C12A_7—C11A_7—C10A_70.00 (12)
C6A_2—C7A_2—C8A_2—S2A_20.1 (4)C12A_7—C11A_7—C10A_7—C9A_73 (2)
C5A_2—S2A_2—C8A_2—C7A_20.4 (3)C8A_7—C9A_7—C10A_7—C11A_7176 (3)
C5A_2—S2A_2—C8A_2—C9A_2178.8 (3)S3A_7—C9A_7—C10A_7—C11A_74 (3)
C7A_2—C8A_2—C9A_2—C10A_2179.3 (3)C10C_7—C9C_7—S3C_7—C12C_77.6 (13)
S2A_2—C8A_2—C9A_2—C10A_21.7 (5)C9C_7—S3C_7—C12C_7—C11C_75.3 (10)
C7A_2—C8A_2—C9A_2—S3A_22.2 (5)S3C_7—C12C_7—C11C_7—C10C_71.4 (18)
S2A_2—C8A_2—C9A_2—S3A_2176.84 (17)C12C_7—C11C_7—C10C_7—C9C_74 (2)
C10A_2—C9A_2—S3A_2—C12A_20.2 (3)S3C_7—C9C_7—C10C_7—C11C_77.3 (18)
C8A_2—C9A_2—S3A_2—C12A_2178.6 (3)C10D_7—C9D_7—S3D_7—C12D_74 (5)
C9A_2—S3A_2—C12A_2—C11A_20.3 (3)C9D_7—S3D_7—C12D_7—C11D_72 (3)
S3A_2—C12A_2—C11A_2—C10A_20.4 (4)S3D_7—C12D_7—C11D_7—C10D_70.00 (14)
C8A_2—C9A_2—C10A_2—C11A_2178.7 (3)S3D_7—C9D_7—C10D_7—C11D_74 (5)
S3A_2—C9A_2—C10A_2—C11A_20.0 (4)C12D_7—C11D_7—C10D_7—C9D_73 (4)
C12A_2—C11A_2—C10A_2—C9A_20.2 (4)C4_8—C3_8—C2_8—C1_81.5 (4)
C4B_2—C3B_2—C2B_2—C1B_20 (8)C3_8—C2_8—C1_8—S1_80.8 (4)
C3B_2—C2B_2—C1B_2—S1B_23 (7)C2_8—C1_8—S1_8—C4_80.1 (3)
C2B_2—C1B_2—S1B_2—C4B_23 (4)C2_8—C3_8—C4_8—C5_8179.1 (3)
C2B_2—C3B_2—C4B_2—C5B_2178 (5)C2_8—C3_8—C4_8—S1_81.6 (3)
C2B_2—C3B_2—C4B_2—S1B_22 (6)C1_8—S1_8—C4_8—C3_81.0 (2)
C1B_2—S1B_2—C4B_2—C5B_2179 (3)C1_8—S1_8—C4_8—C5_8178.7 (3)
C1B_2—S1B_2—C4B_2—C3B_23 (3)C3_8—C4_8—C5_8—C6_8176.5 (3)
C3B_2—C4B_2—C5B_2—C6B_2170 (6)S1_8—C4_8—C5_8—C6_86.2 (4)
S1B_2—C4B_2—C5B_2—C6B_25 (8)C3_8—C4_8—C5_8—S2_84.6 (4)
C3B_2—C4B_2—C5B_2—S2B_25 (7)S1_8—C4_8—C5_8—S2_8172.75 (16)
S1B_2—C4B_2—C5B_2—S2B_2179 (3)C6_8—C5_8—S2_8—C8_80.7 (2)
C6B_2—C5B_2—S2B_2—C8B_28 (5)C4_8—C5_8—S2_8—C8_8178.4 (2)
C4B_2—C5B_2—S2B_2—C8B_2175 (5)C4_8—C5_8—C6_8—C7_8178.2 (3)
C4B_2—C5B_2—C6B_2—C7B_2176 (6)S2_8—C5_8—C6_8—C7_80.9 (3)
S2B_2—C5B_2—C6B_2—C7B_28 (8)C5_8—C6_8—C7_8—C8_80.6 (4)
C5B_2—C6B_2—C7B_2—C8B_22 (8)C6_8—C7_8—C8_8—C9B_8177.0 (3)
C6B_2—C7B_2—C8B_2—C9B_2175 (5)C6_8—C7_8—C8_8—C9A_8177.0 (3)
C6B_2—C7B_2—C8B_2—S2B_24 (5)C6_8—C7_8—C8_8—S2_80.1 (3)
C5B_2—S2B_2—C8B_2—C7B_27 (3)C5_8—S2_8—C8_8—C7_80.4 (2)
C5B_2—S2B_2—C8B_2—C9B_2172 (3)C5_8—S2_8—C8_8—C9B_8176.8 (2)
C7B_2—C8B_2—C9B_2—C10B_2160 (4)C5_8—S2_8—C8_8—C9A_8176.8 (2)
S2B_2—C8B_2—C9B_2—C10B_221 (4)C7_8—C8_8—C9A_8—C10A_8177.2 (7)
C7B_2—C8B_2—C9B_2—S3B_27 (2)S2_8—C8_8—C9A_8—C10A_86.1 (8)
S2B_2—C8B_2—C9B_2—S3B_2173.7 (17)C7_8—C8_8—C9A_8—S3A_82.7 (4)
C10B_2—C9B_2—S3B_2—C12B_216 (3)S2_8—C8_8—C9A_8—S3A_8173.9 (2)
C8B_2—C9B_2—S3B_2—C12B_2172.9 (16)C8_8—C9A_8—S3A_8—C12A_8177.8 (3)
C9B_2—S3B_2—C12B_2—C11B_26 (3)C10A_8—C9A_8—S3A_8—C12A_82.2 (7)
S3B_2—C12B_2—C11B_2—C10B_26 (5)C9A_8—S3A_8—C12A_8—C11A_80.8 (6)
C8B_2—C9B_2—C10B_2—C11B_2177 (3)S3A_8—C12A_8—C11A_8—C10A_81.0 (11)
S3B_2—C9B_2—C10B_2—C11B_222 (4)C12A_8—C11A_8—C10A_8—C9A_82.7 (13)
C12B_2—C11B_2—C10B_2—C9B_218 (6)C8_8—C9A_8—C10A_8—C11A_8176.8 (6)
C4B_3—C3B_3—C2B_3—C1B_30.1 (5)S3A_8—C9A_8—C10A_8—C11A_83.2 (11)
C3B_3—C2B_3—C1B_3—S1B_30.6 (6)C7_8—C8_8—C9B_8—C10B_85.1 (18)
C2B_3—C1B_3—S1B_3—C4B_30.7 (5)S2_8—C8_8—C9B_8—C10B_8171.5 (17)
C2B_3—C3B_3—C4B_3—C5B_3177.7 (3)C7_8—C8_8—C9B_8—S3B_8179.3 (4)
C2B_3—C3B_3—C4B_3—S1B_30.4 (4)S2_8—C8_8—C9B_8—S3B_82.6 (5)
C1B_3—S1B_3—C4B_3—C3B_30.7 (3)C8_8—C9B_8—S3B_8—C12B_8176.9 (8)
C1B_3—S1B_3—C4B_3—C5B_3177.6 (4)C10B_8—C9B_8—S3B_8—C12B_82.1 (17)
C3B_3—C4B_3—C5B_3—C6B_3180.0 (3)C9B_8—S3B_8—C12B_8—C11B_81.2 (19)
S1B_3—C4B_3—C5B_3—C6B_32.0 (5)S3B_8—C12B_8—C11B_8—C10B_84 (3)
C3B_3—C4B_3—C5B_3—S2B_32.7 (5)C12B_8—C11B_8—C10B_8—C9B_86 (4)
S1B_3—C4B_3—C5B_3—S2B_3175.34 (19)C8_8—C9B_8—C10B_8—C11B_8179.8 (17)
C6B_3—C5B_3—S2B_3—C8B_30.8 (3)S3B_8—C9B_8—C10B_8—C11B_85 (3)
C4B_3—C5B_3—S2B_3—C8B_3177.0 (3)C5_9—C4A_9—C3A_9—C2A_9177.8 (6)
C4B_3—C5B_3—C6B_3—C7B_3176.7 (3)S1A_9—C4A_9—C3A_9—C2A_92.2 (6)
S2B_3—C5B_3—C6B_3—C7B_30.8 (4)C4A_9—C3A_9—C2A_9—C1A_91.1 (10)
C5B_3—C6B_3—C7B_3—C8B_30.4 (4)C3A_9—C2A_9—C1A_9—S1A_90.4 (11)
C6B_3—C7B_3—C8B_3—C9B_3177.6 (4)C2A_9—C1A_9—S1A_9—C4A_91.5 (7)
C6B_3—C7B_3—C8B_3—S2B_30.2 (4)C5_9—C4A_9—S1A_9—C1A_9177.9 (3)
C5B_3—S2B_3—C8B_3—C7B_30.6 (3)C3A_9—C4A_9—S1A_9—C1A_92.1 (3)
C5B_3—S2B_3—C8B_3—C9B_3177.4 (4)C5_9—C4B_9—C3B_9—C2B_9179 (2)
C7B_3—C8B_3—C9B_3—C10B_3179.5 (9)S1B_9—C4B_9—C3B_9—C2B_94 (3)
S2B_3—C8B_3—C9B_3—C10B_32.9 (11)C4B_9—C3B_9—C2B_9—C1B_97 (5)
C7B_3—C8B_3—C9B_3—S3B_31.5 (8)C3B_9—C2B_9—C1B_9—S1B_97 (5)
S2B_3—C8B_3—C9B_3—S3B_3176.1 (3)C5_9—C4B_9—S1B_9—C1B_9175.3 (12)
C10B_3—C9B_3—S3B_3—C12B_30.3 (9)C3B_9—C4B_9—S1B_9—C1B_91 (2)
C8B_3—C9B_3—S3B_3—C12B_3179.4 (5)C2B_9—C1B_9—S1B_9—C4B_93 (3)
C9B_3—S3B_3—C12B_3—C11B_30.3 (7)C3A_9—C4A_9—C5_9—C6_9177.7 (4)
S3B_3—C12B_3—C11B_3—C10B_30.7 (11)S1A_9—C4A_9—C5_9—C6_92.3 (4)
C8B_3—C9B_3—C10B_3—C11B_3179.8 (7)C3A_9—C4A_9—C5_9—S2_95.39 (18)
S3B_3—C9B_3—C10B_3—C11B_30.7 (14)S1A_9—C4A_9—C5_9—S2_9174.60 (18)
C12B_3—C11B_3—C10B_3—C9B_30.9 (14)C3B_9—C4B_9—C5_9—C6_93.9 (18)
C4A_3—C3A_3—C2A_3—C1A_37 (6)S1B_9—C4B_9—C5_9—C6_9177.9 (4)
C3A_3—C2A_3—C1A_3—S1A_310 (8)C3B_9—C4B_9—C5_9—S2_9173.0 (17)
C2A_3—C1A_3—S1A_3—C4A_38 (7)S1B_9—C4B_9—C5_9—S2_91.0 (6)
C2A_3—C3A_3—C4A_3—C5A_3178 (3)C6_9—C5_9—S2_9—C8_90.3 (2)
C2A_3—C3A_3—C4A_3—S1A_32 (3)C4A_9—C5_9—S2_9—C8_9177.1 (2)
C1A_3—S1A_3—C4A_3—C3A_33 (4)C4B_9—C5_9—S2_9—C8_9177.1 (2)
C1A_3—S1A_3—C4A_3—C5A_3177 (4)C4A_9—C5_9—C6_9—C7_9176.9 (3)
C3A_3—C4A_3—C5A_3—C6A_3178 (4)C4B_9—C5_9—C6_9—C7_9176.9 (3)
S1A_3—C4A_3—C5A_3—C6A_31 (4)S2_9—C5_9—C6_9—C7_90.3 (3)
C3A_3—C4A_3—C5A_3—S2A_32 (3)C5_9—C6_9—C7_9—C8_90.1 (4)
S1A_3—C4A_3—C5A_3—S2A_3178 (2)C6_9—C7_9—C8_9—C9_9177.5 (3)
C6A_3—C5A_3—S2A_3—C8A_33 (3)C6_9—C7_9—C8_9—S2_90.2 (3)
C4A_3—C5A_3—S2A_3—C8A_3177 (2)C5_9—S2_9—C8_9—C7_90.3 (2)
C4A_3—C5A_3—C6A_3—C7A_3175 (3)C5_9—S2_9—C8_9—C9_9177.6 (2)
S2A_3—C5A_3—C6A_3—C7A_35 (4)C7_9—C8_9—C9_9—C10_9176.3 (3)
C5A_3—C6A_3—C7A_3—C8A_35 (5)S2_9—C8_9—C9_9—C10_96.2 (4)
C6A_3—C7A_3—C8A_3—C9A_3177 (5)C7_9—C8_9—C9_9—S3_96.8 (4)
C6A_3—C7A_3—C8A_3—S2A_32 (4)S2_9—C8_9—C9_9—S3_9170.70 (16)
C5A_3—S2A_3—C8A_3—C7A_31 (3)C10_9—C9_9—S3_9—C12_91.1 (2)
C5A_3—S2A_3—C8A_3—C9A_3180 (4)C8_9—C9_9—S3_9—C12_9178.5 (3)
C7A_3—C8A_3—C9A_3—C10A_3172 (5)C9_9—S3_9—C12_9—C11_90.4 (3)
S2A_3—C8A_3—C9A_3—C10A_39 (9)S3_9—C12_9—C11_9—C10_90.4 (4)
C7A_3—C8A_3—C9A_3—S3A_33 (8)C8_9—C9_9—C10_9—C11_9178.7 (3)
S2A_3—C8A_3—C9A_3—S3A_3176 (4)S3_9—C9_9—C10_9—C11_91.5 (3)
C8A_3—C9A_3—S3A_3—C12A_3176 (6)C12_9—C11_9—C10_9—C9_91.3 (4)
C10A_3—C9A_3—S3A_3—C12A_31 (6)C4A_10—C3A_10—C2A_10—C1A_100.4 (6)
C9A_3—S3A_3—C12A_3—C11A_31 (5)C3A_10—C2A_10—C1A_10—S1A_100.0 (5)
S3A_3—C12A_3—C11A_3—C10A_32 (6)C2A_10—C1A_10—S1A_10—C4A_100.3 (3)
C12A_3—C11A_3—C10A_3—C9A_31 (7)C2A_10—C3A_10—C4A_10—C5A_10178.8 (4)
C8A_3—C9A_3—C10A_3—C11A_3175 (6)C2A_10—C3A_10—C4A_10—S1A_100.6 (5)
S3A_3—C9A_3—C10A_3—C11A_30 (7)C1A_10—S1A_10—C4A_10—C3A_100.5 (3)
C10C_3—C9C_3—S3C_3—C12C_32 (4)C1A_10—S1A_10—C4A_10—C5A_10178.9 (3)
C9C_3—S3C_3—C12C_3—C11C_34 (4)C3A_10—C4A_10—C5A_10—C6A_10175.1 (4)
S3C_3—C12C_3—C11C_3—C10C_36 (6)S1A_10—C4A_10—C5A_10—C6A_105.6 (5)
C12C_3—C11C_3—C10C_3—C9C_34 (7)C3A_10—C4A_10—C5A_10—S2A_104.8 (6)
S3C_3—C9C_3—C10C_3—C11C_31 (6)S1A_10—C4A_10—C5A_10—S2A_10174.51 (19)
C4_4—C3_4—C2_4—C1_40.9 (4)C6A_10—C5A_10—S2A_10—C8A_100.2 (3)
C3_4—C2_4—C1_4—S1_40.3 (4)C4A_10—C5A_10—S2A_10—C8A_10179.9 (3)
C2_4—C1_4—S1_4—C4_40.3 (3)C4A_10—C5A_10—C6A_10—C7A_10180.0 (3)
C2_4—C3_4—C4_4—C5_4178.9 (3)S2A_10—C5A_10—C6A_10—C7A_100.1 (4)
C2_4—C3_4—C4_4—S1_41.1 (3)C5A_10—C6A_10—C7A_10—C8A_100.1 (4)
C1_4—S1_4—C4_4—C5_4179.2 (3)C6A_10—C7A_10—C8A_10—C9A_10178.1 (3)
C1_4—S1_4—C4_4—C3_40.8 (2)C6A_10—C7A_10—C8A_10—S2A_100.2 (4)
C3_4—C4_4—C5_4—C6_4177.1 (3)C5A_10—S2A_10—C8A_10—C7A_100.2 (3)
S1_4—C4_4—C5_4—C6_42.9 (4)C5A_10—S2A_10—C8A_10—C9A_10178.2 (3)
C3_4—C4_4—C5_4—S2_42.1 (4)C7A_10—C8A_10—C9A_10—C10A_10175.6 (6)
S1_4—C4_4—C5_4—S2_4177.86 (16)S2A_10—C8A_10—C9A_10—C10A_106.3 (7)
C6_4—C5_4—S2_4—C8_40.7 (2)C7A_10—C8A_10—C9A_10—S3A_105.6 (5)
C4_4—C5_4—S2_4—C8_4179.9 (2)S2A_10—C8A_10—C9A_10—S3A_10172.59 (19)
C4_4—C5_4—C6_4—C7_4179.9 (3)C10A_10—C9A_10—S3A_10—C12A_100.8 (5)
S2_4—C5_4—C6_4—C7_40.6 (3)C8A_10—C9A_10—S3A_10—C12A_10178.3 (3)
C5_4—C6_4—C7_4—C8_40.1 (4)C9A_10—S3A_10—C12A_10—C11A_100.9 (5)
C6_4—C7_4—C8_4—C9_4178.7 (3)S3A_10—C12A_10—C11A_10—C10A_100.9 (8)
C6_4—C7_4—C8_4—S2_40.5 (3)C8A_10—C9A_10—C10A_10—C11A_10178.6 (5)
C5_4—S2_4—C8_4—C7_40.7 (2)S3A_10—C9A_10—C10A_10—C11A_100.4 (8)
C5_4—S2_4—C8_4—C9_4178.6 (2)C12A_10—C11A_10—C10A_10—C9A_100.3 (10)
C7_4—C8_4—C9_4—C10_4179.3 (3)C10B_10—C9B_10—S3B_10—C12B_100.9 (19)
S2_4—C8_4—C9_4—C10_41.6 (4)C9B_10—S3B_10—C12B_10—C11B_108 (3)
C7_4—C8_4—C9_4—S3_43.7 (4)S3B_10—C12B_10—C11B_10—C10B_1013 (5)
S2_4—C8_4—C9_4—S3_4175.43 (15)S3B_10—C9B_10—C10B_10—C11B_106 (3)
C10_4—C9_4—S3_4—C12_40.7 (2)C12B_10—C11B_10—C10B_10—C9B_1012 (5)
C8_4—C9_4—S3_4—C12_4178.2 (2)C4C_10—C3C_10—C2C_10—C1C_100.01 (19)
C9_4—S3_4—C12_4—C11_40.0 (3)C3C_10—C2C_10—C1C_10—S1C_100.01 (14)
S3_4—C12_4—C11_4—C10_40.7 (4)C2C_10—C1C_10—S1C_10—C4C_100.00 (9)
C8_4—C9_4—C10_4—C11_4178.5 (3)C2C_10—C3C_10—C4C_10—C5C_10180.00 (14)
S3_4—C9_4—C10_4—C11_41.2 (3)C2C_10—C3C_10—C4C_10—S1C_100.01 (17)
C12_4—C11_4—C10_4—C9_41.2 (4)C1C_10—S1C_10—C4C_10—C3C_100.00 (11)
C4_5—C3_5—C2_5—C1_51.2 (4)C1C_10—S1C_10—C4C_10—C5C_10180.00 (10)
C3_5—C2_5—C1_5—S1_50.7 (4)C3C_10—C4C_10—C5C_10—C6C_10173 (3)
C2_5—C1_5—S1_5—C4_50.0 (3)S1C_10—C4C_10—C5C_10—C6C_107 (3)
C2_5—C3_5—C4_5—C5_5177.9 (3)C3C_10—C4C_10—C5C_10—S2C_1010 (2)
C2_5—C3_5—C4_5—S1_51.2 (3)S1C_10—C4C_10—C5C_10—S2C_10170 (2)
C1_5—S1_5—C4_5—C3_50.7 (2)C6C_10—C5C_10—S2C_10—C8C_101 (3)
C1_5—S1_5—C4_5—C5_5177.7 (3)C4C_10—C5C_10—S2C_10—C8C_10167.3 (18)
C3_5—C4_5—C5_5—C6_5179.9 (3)C4C_10—C5C_10—C6C_10—C7C_10167 (3)
S1_5—C4_5—C5_5—C6_53.7 (4)S2C_10—C5C_10—C6C_10—C7C_102 (5)
C3_5—C4_5—C5_5—S2_51.9 (4)C5C_10—C6C_10—C7C_10—C8C_103 (6)
S1_5—C4_5—C5_5—S2_5174.50 (16)C6C_10—C7C_10—C8C_10—C9C_10174 (3)
C6_5—C5_5—S2_5—C8_51.0 (2)C6C_10—C7C_10—C8C_10—S2C_102 (5)
C4_5—C5_5—S2_5—C8_5177.5 (2)C5C_10—S2C_10—C8C_10—C7C_100 (3)
C4_5—C5_5—C6_5—C7_5177.7 (3)C5C_10—S2C_10—C8C_10—C9C_10173 (2)
S2_5—C5_5—C6_5—C7_50.7 (3)C7C_10—C8C_10—C9C_10—C10C_10176 (4)
C5_5—C6_5—C7_5—C8_50.2 (4)S2C_10—C8C_10—C9C_10—C10C_104 (2)
C6_5—C7_5—C8_5—C9B_5178.5 (3)C7C_10—C8C_10—C9C_10—S3C_104 (4)
C6_5—C7_5—C8_5—C9A_5178.5 (3)S2C_10—C8C_10—C9C_10—S3C_10176 (2)
C6_5—C7_5—C8_5—S2_50.9 (3)C10C_10—C9C_10—S3C_10—C12C_101 (3)
C5_5—S2_5—C8_5—C7_51.1 (2)C8C_10—C9C_10—S3C_10—C12C_10179 (3)
C5_5—S2_5—C8_5—C9B_5178.4 (2)C9C_10—S3C_10—C12C_10—C11C_102 (4)
C5_5—S2_5—C8_5—C9A_5178.4 (2)S3C_10—C12C_10—C11C_10—C10C_103 (5)
C7_5—C8_5—C9A_5—C10A_5177.9 (7)C8C_10—C9C_10—C10C_10—C11C_10179.99 (15)
S2_5—C8_5—C9A_5—C10A_52.7 (8)S3C_10—C9C_10—C10C_10—C11C_100.0 (2)
C7_5—C8_5—C9A_5—S3A_53.1 (5)C12C_10—C11C_10—C10C_10—C9C_102 (4)
S2_5—C8_5—C9A_5—S3A_5176.3 (2)C4_11—C3_11—C2_11—C1_114.4 (13)
C8_5—C9A_5—S3A_5—C12A_5178.7 (3)C3_11—C2_11—C1_11—S1_118.2 (15)
C10A_5—C9A_5—S3A_5—C12A_50.5 (6)C2_11—C1_11—S1_11—C4_117.5 (13)
C9A_5—S3A_5—C12A_5—C11A_50.5 (5)C2_11—C3_11—C4_11—C5_11179.4 (11)
S3A_5—C12A_5—C11A_5—C10A_50.3 (10)C2_11—C3_11—C4_11—S1_111.3 (11)
C12A_5—C11A_5—C10A_5—C9A_50.0 (13)C1_11—S1_11—C4_11—C3_114.9 (11)
C8_5—C9A_5—C10A_5—C11A_5178.7 (6)C1_11—S1_11—C4_11—C5_11176.8 (11)
S3A_5—C9A_5—C10A_5—C11A_50.4 (11)C3_11—C4_11—C5_11—C6_11179.7 (10)
C7_5—C8_5—C9B_5—C10B_53 (2)S1_11—C4_11—C5_11—C6_112.3 (16)
S2_5—C8_5—C9B_5—C10B_5176 (2)C3_11—C4_11—C5_11—S2_113.2 (17)
C7_5—C8_5—C9B_5—S3B_5178.2 (5)S1_11—C4_11—C5_11—S2_11178.8 (6)
S2_5—C8_5—C9B_5—S3B_52.4 (6)C6_11—C5_11—S2_11—C8_111.5 (8)
C8_5—C9B_5—S3B_5—C12B_5180.0 (9)C4_11—C5_11—S2_11—C8_11175.6 (8)
C10B_5—C9B_5—S3B_5—C12B_51 (2)C4_11—C5_11—C6_11—C7_11175.3 (10)
C9B_5—S3B_5—C12B_5—C11B_51 (2)S2_11—C5_11—C6_11—C7_111.4 (9)
S3B_5—C12B_5—C11B_5—C10B_53 (3)C5_11—C6_11—C7_11—C8_110.6 (10)
C12B_5—C11B_5—C10B_5—C9B_54 (4)C6_11—C7_11—C8_11—C9_11179.2 (10)
C8_5—C9B_5—C10B_5—C11B_5178 (2)C6_11—C7_11—C8_11—S2_110.5 (9)
S3B_5—C9B_5—C10B_5—C11B_53 (4)C5_11—S2_11—C8_11—C7_111.1 (8)
C4_6—C3_6—C2_6—C1_60.5 (4)C5_11—S2_11—C8_11—C9_11180.0 (8)
C3_6—C2_6—C1_6—S1_60.2 (4)C7_11—C8_11—C9_11—C10_11176.9 (10)
C2_6—C1_6—S1_6—C4_60.6 (3)S2_11—C8_11—C9_11—C10_111.7 (17)
C2_6—C3_6—C4_6—C5_6178.8 (3)C7_11—C8_11—C9_11—S3_116.2 (17)
C2_6—C3_6—C4_6—S1_60.9 (3)S2_11—C8_11—C9_11—S3_11172.3 (6)
C1_6—S1_6—C4_6—C3_60.8 (2)C10_11—C9_11—S3_11—C12_114.8 (12)
C1_6—S1_6—C4_6—C5_6178.8 (3)C8_11—C9_11—S3_11—C12_11176.8 (13)
C3_6—C4_6—C5_6—C6_6175.7 (3)C9_11—S3_11—C12_11—C11_115.5 (16)
S1_6—C4_6—C5_6—C6_63.9 (4)S3_11—C12_11—C11_11—C10_115 (2)
C3_6—C4_6—C5_6—S2_63.2 (4)C8_11—C9_11—C10_11—C11_11174.3 (11)
S1_6—C4_6—C5_6—S2_6177.13 (16)S3_11—C9_11—C10_11—C11_112.9 (12)
C6_6—C5_6—S2_6—C8_61.0 (2)C12_11—C11_11—C10_11—C9_111.2 (17)
C4_6—C5_6—S2_6—C8_6179.8 (2)
 

Funding information

Financial support was provided by the Austrian Science Fund (grant No. P25887) and Belgian National Funds for Scientific Research (FNRS PDR T.0058.14). GS ackowledges postdoctoral fellowship support from the Leverhulme Trust (Early Career Fellowship supported by the Isaac Newton Trust). The authors thank the Elettra synchrotron in Trieste, Italy, for allocation of beamtime on the XRD1 beamline.

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IUCrJ
Volume 5| Part 3| May 2018| Pages 304-308
ISSN: 2052-2525