metal-organic compounds
New organic–inorganic frameworks incorporating iso- and heteropolymolybdate units and a 3,3′,5,5′-tetramethyl-4,4′-bi-1H-pyrazole-2,2′-diium multiple hydrogen-bond donor
aInorganic Chemistry Department, National Taras Shevchenko University of Kyiv, Volodimirska Street 64, Kyiv 01033, Ukraine, and bInstitute of Inorganic Chemistry, Leipzig University, Johannisallee 29, D-04103 Leipzig, Germany
*Correspondence e-mail: dk@univ.kiev.ua
Poly[bis(3,3′,5,5′-tetramethyl-4,4′-bi-1H-pyrazole-2,2′-diium) γ-octamolybdate(VI) dihydrate], {(C10H16N4)2[Mo8O26]·2H2O}n, (I), and bis(3,3′,5,5′-tetramethyl-4,4′-bi-1H-pyrazole-2,2′-diium) α-dodecamolybdo(VI)silicate tetrahydrate, (C10H16N4)2[SiMo12O40]·4H2O, (II), display intense hydrogen bonding between the cationic pyrazolium species and the metal oxide anions. In (I), the contains half a centrosymmetric γ-type [Mo8O26]4− anion, which produces a one-dimensional polymeric chain by corner-sharing, one cation and one water molecule. Three-centre bonding with 3,3′,5,5′-tetramethyl-4,4′-bi-1H-pyrazole-2,2′-diium, denoted [H2Me4bpz]2+ [N⋯O = 2.770 (4)–3.146 (4) Å], generates two-dimensional layers that are further linked by hydrogen bonds involving water molecules [O⋯O = 2.902 (4) and 3.010 (4) Å]. In (II), each of the four independent [H2Me4bpz]2+ cations lies across a twofold axis. They link layers of [SiMo12O40]4− anions into a three-dimensional framework, and the preferred sites for pyrazolium/anion hydrogen bonding are the terminal oxide atoms [N⋯O = 2.866 (6)–2.999 (6) Å], while anion/aqua interactions occur preferentially via μ2-O sites [O⋯O = 2.910 (6)–3.151 (6) Å].
Comment
Pyrazole species attract general interest as versatile multipurpose tectons for the development of solid-state architecture (Halcrow, 2009). In this respect, bifunctional 3,3′,5,5′-tetramethyl-4,4′-bipyrazole (Me4bpz) offers special potential as a symmetric neutral or anionic linker for discrete polynuclear complexes (Yu et al., 2005), open metal–organic polymers for adsorption applications (Zhang & Kitagawa, 2008; Rusanov et al., 2003), acentric hydrogen-bonded frameworks (Boldog et al., 2001) and binary cocrystals (Boldog et al., 2004). Even wider applications for the development of hydrogen-bonded structures could be anticipated for the 3,3′,5,5′-tetramethyl-4,4′-bi-1H-pyrazole-2,2′-diium dication, [H2Me4bpz]2+. The cation may be viewed as a symmetric donor of four hydrogen bonds, while a particular benefit of the tecton structure arises from the spatial proximity of two NH groups supported by each of the pyrazolium rings. The latter favours multiple and multicentre interactions with the anionic substrate, which could be especially relevant for polynuclear and polymeric oxo- and halometallate anions, providing a number of closely separated hydrogen-bond acceptor sites. Therefore, bipyrazolium tectons may be applied as very specific cationic templates for metal–oxide materials, such as layered molybdenum(VI) and vanadium(V) oxides and low-dimensional isopolymolybdates(VI) (Hubbard et al., 2008; Hagrman et al., 1999). In this context, we have prepared two new salts, poly[bis(3,3′,5,5′-tetramethyl-4,4′-bi-1H-pyrazole-2,2′-diium) γ-octamolybdate(VI) dihydrate], (I), and bis(3,3′,5,5′-tetramethyl-4,4′-bi-1H-pyrazole-2,2′-diium) α-dodecamolybdo(VI)silicate tetrahydrate, (II), based on the [H2Me4bpz]2+ cation and iso- and heteropolymolybdate anionic species, and report their structures here. Only a few previous works have considered the special supramolecular significance of hydrogen-bonded pyrazolium cations (Boldog et al., 2009; Singh et al., 2011).
The structure of (I) consists of one-dimensional polymolybdate anions running along the crystallographic a direction, [H2Me4bpz]2+ dications and solvent water molecules. The inorganic polyanion is built up of repeating centrosymmetric [Mo8O26]4− units sharing two pairs of opposite vertices and the corresponding oxide bridge is actually linear: Mo4—O12—Mo2ii = 174.18 (14)° [symmetry code: (ii) −x, −y + 1, −z + 1] (Fig. 1). The molecular shape and functionality of the [H2Me4bpz]2+ template is important for the structure of the infinite metal–oxide anion. The present connection mode is characteristic of polymeric octamolybdates crystallized as salts of the organic bases 4-aminopyridine (Nelson et al., 2006), N,N-dimethylethylenediamine (Thorn et al., 2005) and 1,4-diazabicyclo[2.2.2]octane (Fang et al., 2004), while the long cationic templates hexane-1,6-diamine (Xu et al., 1996) and 1,1′-[(biphenyl-4,4′-diyl)dimethylene]diimidazole (Liu et al., 2010) produce an isomeric one-dimensional polyoctamolybdate array. The [Mo8O26]4− units themselves adopt the γ-isomeric form of octamolybdate (Hagrman et al., 1999), with the typical octahedral environment of each metal ion involving three types of Mo—O bonds (2+2+2 coordination), viz. short molybdenyl bonds with terminal oxide ligands [1.693 (2)–1.717 (2) Å], Mo—μ2-O [1.901 (2)–1.977 (2) Å] and longer Mo—O bonds [2.173 (2)–2.438 (2) Å], with four μ3-oxide and two μ4-oxide ligands.
Interaction of the bipyrazolium dications and one-dimensional oxoanions occurs by means of extensive N—H⋯O hydrogen bonding, utilizing most of the terminal O atoms (O1, O6, O8 and O13), as well as the μ-oxide O2 and O10 centres (Table 1). This is responsible for the connection of the components into hydrogen-bonded layers parallel to the ac plane (Fig. 2). Within these layers, successive oxide chains are situated at a distance of 12.9231 (13) Å (parameter c of the unit cell). Each pyrazolium ring is involved in bonding with two adjacent [Mo8O26]4− units along the chain. The high number of closely situated O-atom acceptor sites effects bifurcation of the hydrogen-bond interactions. This is a salient feature of such a system and it could be considered as a design tool. In this way, pyrazole ring A (N1/N2/C2–C4; Fig. 1b) adopts four hydrogen bonds with three acceptor atoms (N—H⋯O = 112–152°), which is important for the densest accommodation of the cation on the metal oxide matrix (Fig. 2). The bonding mode of ring B (N3/N4/C7–C9; Fig. 1b) is slightly different, with one three-centre bond of the N3—H donor and one directional N4—H4⋯O10(−x + 1, −y + 1, −z + 2) interaction with a single acceptor site, which provides the shortest N⋯O contact [2.724 (4) Å]. Other N⋯O separations [2.770 (4)–3.146 (4) Å] (Table 1) are also typical for N—H⋯O hydrogen bonds. However, they are slightly longer than the parameters derived from a statistical evaluation of pyrazolium salts (2.62–2.94 Å, distribution median = 2.74 Å; Boldog et al., 2009) due to bifurcation of the bonds. The present three-centre hydrogen bonding may be especially relevant for pyrazolium salts involving a high number of convenient acceptors, as provided by polyoxometallate species. This situation may also be related to the hydrogen-bonding patterns of 4,4′-bipyrazolium fluorometallate salts based on [TaF6]−, [Zr2F12]4− and [BeF3−]n anions (Boldog et al., 2009). Hydrogen bonds with water molecules extends this structure in the third dimension, with the formation of centrosymmetric anion–aqua fragments MoO6–(HOH)2–O6Mo involving two terminal and two μ2-O-atom acceptors (Fig. 2b). The O⋯O separations in the latter cases are slightly shorter, viz. 2.902 (4) versus 3.010 (4) Å for O⋯O(terminal) (Table 1).
The includes an [SiMo12O40]4− anion, four half [H2Me4bpz]2+ dications and four water molecules (Fig. 3). The complete organic molecules are generated by crystallographic twofold symmetry. The [SiMo12O40]4− anions adopt the most common α-form, with the typical distorted octahedral coordination of 12 Mo atoms, which involve short bonds with terminal oxide ligands [Mo—O = 1.684 (4)–1.711 (4) Å] and elongated bonds with a μ4-O atom in a trans position [Mo—O = 2.315 (3)–2.385 (5) Å]. Four equatorial Mo—O bonds with μ2-O ligands are in the range 1.824 (3)–2.043 (4) Å.
of (II)The anions, water molecules and 3,5-dimethylpyrazolium halves of the [H2Me4bpz]2+ tectons form clearly distinguishable hydrogen-bonded layers parallel to the bc plane (interlayer separation = 0.5a = 11.27 Å) (Fig. 4). This array is dominated by the packing of the very bulky anions and thus the pyrazolium and water hydrogen-bond donors appear intercalated in the voids of these layers. Hydrogen bonding between the [H2Me4bpz]2+ and [SiMo12O40]4− counterparts is itself weaker and less characteristic than in the case of (I). Firstly, for all four independent cations, only half of the NH donors interact directly with the metal oxide matrix, while the other interactions are expanded by inclusion of a water molecule: NH⋯OH⋯OMo (Fig. 4). This parallels the binding mode of [H2Me4bpz]2+ and the much smaller low nucleophilic anion S2O62− (Boldog et al., 2009). Secondly, the present N—H⋯O(Mo) hydrogen bonds [2.866 (6)–3.285 (6) Å] are appreciably longer than the N—H⋯OH2 hydrogen bonds [2.693 (6)–2.864 (7) Å] (Table 3) and also longer than the N—H⋯O(Mo) hydrogen bonds in the case of (I). This reflects the weakness of the hydrogen bonding and such an observation may be related to only a very weak hydrogen-bond interaction in the (PyH)4[SiMo12O40]·0.5H2O salt [N⋯O = 3.05 (1)–3.29 (1) Å; PyH is pyridinium] (Dang & Jin, 2007).
Similar to (I), the preferred anion sites for establishing hydrogen bonds with the pyrazolium cation are the terminal oxide ligands (Fig. 3). For (II), weak interactions with μ2-O atoms [N⋯O = 3.041 (6) and 3.285 (6) Å] exist only as longer branches of three-centre bonds (Table 3). The present discrimination of the acceptor sites is likely predetermined by the relative negative charge located at the O atoms. Thus, the bond-valence sum calculations for (I) and (II) (Tables 2 and 4) suggest that the terminal oxide ligands are the most under-bonded and highly nucleophilic (Tytko et al., 1999). The same situation is reflected in the N—H⋯O hydrogen bonding with the μ2-O and μ3-O acceptors in (I), which occurs via the most nucleophilic sites O2 and O10 (Table 2). Steric accessibility of the terminal O atoms is the second important factor when considering the bulk volume of the dimethylpyrazolium substrate. It is notable that the hydrogen bonding of small water molecules in (II) occurs preferentially with μ2-O atoms (Table 4).
In both structures, the organic tectons exhibit a typical twisted conformation [for (I), the C2—C3—C8—C7 torsion angle is 62.7 (5)°; for (II), the corresponding angles are in the range 64.1 (8)–75.0 (8)°]. The equivalence of the pyrazolium NH sites is best indicated by the angles at the N atoms (Domasevitch, 2008). They are actually uniform in all cases [108.9 (3) and 109.0 (3)° in (I), and in the range 108.6 (5)–110.7 (5)° in (II)], while a neutral Me4bpz molecule (α-polymorph) displays a differentiation of these parameters according to the types C—N—N(H) = 104.1 (2)° and C—N(H)—N = 113.0 (2)° (Boldog et al., 2001).
In brief, the specific hydrogen-bond donor fuctionality of the pyrazolium group is well suited to the formation of multiple interactions with the polyoxometallate matrix, and bifunctional pyrazoles may be viewed as a new type of organic template for the synthesis of molybdate materials.
Experimental
The title compounds were synthesized by a hydrothermal technique starting with 3,3′,5,5′-tetramethyl-4,4′-bipyrazole (Me4bpz; Boldog et al., 2001). Compound (I) was obtained in the presence of cadmium(II) ions. For the preparation of (I), Me4bpz (9.5 mg, 0.05 mmol), (NH4)6Mo7O24·4H2O (37.1 mg, 0.03 mmol), CdCl2·2.5H2O (6.0 mg, 0.026 mmol) and water (4 ml) were placed in a Teflon vessel which was in turn placed in a steel bomb and heated at 443 K for 48 h. Cooling of the mixture to room temperature over a period of 72 h yielded colourless prisms of (H2Me4bpz)2[Mo8O26]·2H2O, (I) (yield 32 mg, 80%, based on the pyrazole base). For the preparation of (II), Me4bpz (9.5 mg, 0.05 mmol), H4[SiMo12O40]·13H2O (61.7 mg, 0.03 mmol) and water (5 ml) were sealed in a Pyrex tube, heated at 423 K for 24 h and then cooled to room temperature over a period of 48 h. Large yellow crystals of (II) were obtained in a yield of 38 mg (65%).
Compound (I)
Crystal data
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Refinement
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Compound (II)
Crystal data
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All methyl H atoms were added geometrically, while N- and O-bound H atoms were located from difference maps and then geometrically optimized and refined as riding on their parent atom. O—H distances were constrained to 0.85 Å, N—H distances to 0.88 Å and C—H distances to 0.98 Å, with Uiso(H) = 1.5Ueq(C,N,O).
For both compounds, data collection: IPDS Software (Stoe & Cie, 2000); cell IPDS Software; data reduction: IPDS Software; program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: DIAMOND (Brandenburg, 1999); software used to prepare material for publication: WinGX (Farrugia, 1999).
Supporting information
10.1107/S0108270111047159/ku3054sup1.cif
contains datablocks global, I, II. DOI:Structure factors: contains datablock I. DOI: 10.1107/S0108270111047159/ku3054Isup2.hkl
Structure factors: contains datablock II. DOI: 10.1107/S0108270111047159/ku3054IIsup3.hkl
The title compounds were synthesized by a hydrothermal technique starting with 3,3',5,5'-tetramethyl-4,4'-bipyrazole (Me4bpz; Boldog et al., 2001). Compound (I) was obtained in the presence of cadmium(II) ions. For the preparation of (I), Me4bpz (9.5 mg, 0.05 mmol), (NH4)6Mo7O24·4H2O (37.1 mg, 0.03 mmol), CdCl2·H2O (6.0 mg, 0.03 mmol) and water (4 ml) in a Teflon vessel were placed in a steel bomb and heated at 443 K for 48 h. Cooling of the mixture to room temperature over a period of 72 h yielded colourless prisms of (H2Me4bpz)2[Mo8O26]·2H2O, (I) (yield 32 mg, 80%, based on the pyrazole base). For the preparation of (II), Me4bpz (9.5 mg, 0.05 mmol), H4[SiMo12O40].13H2O (61.7 mg, 0.03 mmol) and water (5 ml) were sealed in a Pyrex tube, heated at 423 K for 24 h and then cooled to room temperature over a period of 48 h. Large yellow crystals of (II) were obtained in a yield of 38 mg (65%).
All methyl H atoms were added geometrically, while N– and O-bound H atoms were located from difference maps and then refined as riding, with the angles constrained. O—H distances were constrained to 0.85 Å, N—H distances to 0.88 Å and C—H distances to 0.98 Å, with Uiso(H) = 1.5Ueq(C/N/O).
For both compounds, data collection: IPDS Software (Stoe & Cie, 2000); cell
IPDS Software (Stoe & Cie, 2000); data reduction: IPDS Software (Stoe & Cie, 2000); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: DIAMOND (Brandenburg, 1999); software used to prepare material for publication: WinGX (Farrugia, 1999).Fig. 1. (a) The inorganic anion in the environment of the solvent water molecules and (b) the organic dication in the structure of (I), showing the atom-labelling scheme. Displacement ellipsoids are drawn at the 40% probability level. The dashed lines indicate hydrogen bonding. [Symmetry codes: (i) -x + 1, -y + 1, -z + 1; (ii) -x, -y + 1, -z + 1.] | |
Fig. 2. (a) The hydrogen-bonded layer in the structure of (I), showing a set of three-centre interactions between the one-dimensional oxometallate chains (in a polyhedral representation) and bipyrazolium connectors. (b) A projection onto the bc plane, showing the mode of connection of the [(H2Me4bpz)2(Mo8O26)]n layers by water molecules. Note the centrosymmetric aqua–molybdate motif. C-bound H atoms have been omitted for clarity. [Symmetry codes: (ii) -x, -y + 1, -z + 1; (iii) -x, -y, -z; (iv) x + 1, y, z + 1; (v) -x + 1, -y + 1, -z + 2.] | |
Fig. 3. The structure of (II), showing the atom-labelling scheme. Displacement ellipsoids are drawn at the 40% probability level. N and O atoms are shaded grey and dashed lines indicate hydrogen bonding. [Symmetry codes: (i) -x, y, -z + 1; (ii) -x + 1, y, -z + 3; (iii) -x, y, -z; (iv) -x + 1, y, -z + 2.] | |
Fig. 4. (a) The hydrogen-bonded layer in the structure of (II), showing how the pyrazolium and aqua hydrogen-bond donors are situated between the bulk [SiMo12O40]4- anions (depicted in a polyhedral representation). (b) A projection onto the ab plane, showing the [H2Me4bpz]2+ tectons as links between successive hydrogen-bonded layers. N and O atoms are shaded grey and dashed lines indicate hydrogen bonding. C-bound H atoms have been omitted for clarity. |
(C10H16N4)2[Mo8O26]·2H2O | Z = 1 |
Mr = 1604.09 | F(000) = 772 |
Triclinic, P1 | Dx = 2.661 Mg m−3 |
a = 8.0821 (8) Å | Mo Kα radiation, λ = 0.71073 Å |
b = 11.2521 (11) Å | Cell parameters from 8000 reflections |
c = 12.9231 (13) Å | θ = 1.8–27.4° |
α = 106.242 (8)° | µ = 2.53 mm−1 |
β = 106.063 (9)° | T = 173 K |
γ = 106.102 (8)° | Prism, colourless |
V = 1000.9 (2) Å3 | 0.14 × 0.12 × 0.08 mm |
Stoe IPDS diffractometer | 4505 independent reflections |
Radiation source: fine-focus sealed tube | 3837 reflections with I > 2σ(I) |
Graphite monochromator | Rint = 0.032 |
ϕ oscillation scans | θmax = 27.4°, θmin = 1.8° |
Absorption correction: numerical [X-RED (Stoe & Cie, 2001) and X-SHAPE (Stoe & Cie, 1999)] | h = −10→10 |
Tmin = 0.718, Tmax = 0.823 | k = −14→14 |
9228 measured reflections | l = −16→15 |
Refinement on F2 | Primary atom site location: structure-invariant direct methods |
Least-squares matrix: full | Secondary atom site location: difference Fourier map |
R[F2 > 2σ(F2)] = 0.024 | Hydrogen site location: inferred from neighbouring sites |
wR(F2) = 0.060 | H-atom parameters constrained |
S = 0.98 | w = 1/[σ2(Fo2) + (0.038P)2] where P = (Fo2 + 2Fc2)/3 |
4505 reflections | (Δ/σ)max = 0.001 |
293 parameters | Δρmax = 0.74 e Å−3 |
0 restraints | Δρmin = −0.74 e Å−3 |
(C10H16N4)2[Mo8O26]·2H2O | γ = 106.102 (8)° |
Mr = 1604.09 | V = 1000.9 (2) Å3 |
Triclinic, P1 | Z = 1 |
a = 8.0821 (8) Å | Mo Kα radiation |
b = 11.2521 (11) Å | µ = 2.53 mm−1 |
c = 12.9231 (13) Å | T = 173 K |
α = 106.242 (8)° | 0.14 × 0.12 × 0.08 mm |
β = 106.063 (9)° |
Stoe IPDS diffractometer | 4505 independent reflections |
Absorption correction: numerical [X-RED (Stoe & Cie, 2001) and X-SHAPE (Stoe & Cie, 1999)] | 3837 reflections with I > 2σ(I) |
Tmin = 0.718, Tmax = 0.823 | Rint = 0.032 |
9228 measured reflections |
R[F2 > 2σ(F2)] = 0.024 | 0 restraints |
wR(F2) = 0.060 | H-atom parameters constrained |
S = 0.98 | Δρmax = 0.74 e Å−3 |
4505 reflections | Δρmin = −0.74 e Å−3 |
293 parameters |
Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes. |
Refinement. Refinement of F2 against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F2, conventional R-factors R are based on F, with F set to zero for negative F2. The threshold expression of F2 > σ(F2) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F2 are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger. |
x | y | z | Uiso*/Ueq | ||
Mo1 | 0.25330 (4) | 0.17846 (3) | 0.30772 (2) | 0.01366 (7) | |
Mo2 | 0.12025 (4) | 0.43276 (3) | 0.34568 (2) | 0.01314 (7) | |
Mo3 | 0.41592 (4) | 0.50365 (2) | 0.60837 (2) | 0.01268 (7) | |
Mo4 | 0.30214 (4) | 0.77361 (3) | 0.60293 (2) | 0.01380 (7) | |
O1 | 0.1004 (3) | 0.1106 (2) | 0.3647 (2) | 0.0184 (5) | |
O2 | 0.4666 (3) | 0.1643 (2) | 0.4164 (2) | 0.0158 (5) | |
O3 | 0.2079 (3) | 0.0509 (2) | 0.1816 (2) | 0.0197 (5) | |
O4 | 0.1260 (3) | 0.2796 (2) | 0.23939 (19) | 0.0154 (5) | |
O5 | 0.3441 (3) | 0.3826 (2) | 0.45000 (19) | 0.0151 (4) | |
O6 | 0.0310 (3) | 0.5048 (2) | 0.2561 (2) | 0.0182 (5) | |
O7 | 0.2516 (3) | 0.5765 (2) | 0.49669 (19) | 0.0144 (4) | |
O8 | 0.2512 (3) | 0.4323 (2) | 0.6539 (2) | 0.0196 (5) | |
O9 | 0.6099 (3) | 0.4713 (2) | 0.6753 (2) | 0.0161 (5) | |
O10 | 0.4947 (3) | 0.6894 (2) | 0.70251 (19) | 0.0151 (4) | |
O11 | 0.3549 (3) | 0.8906 (2) | 0.7363 (2) | 0.0222 (5) | |
O12 | 0.0736 (3) | 0.6526 (2) | 0.6285 (2) | 0.0181 (5) | |
O13 | 0.1664 (3) | 0.8157 (2) | 0.5046 (2) | 0.0223 (5) | |
O14 | −0.0636 (5) | 0.2304 (3) | −0.0038 (3) | 0.0429 (8) | |
H1W | −0.1006 | 0.1491 | −0.0492 | 0.064* | |
H2W | −0.0095 | 0.2379 | 0.0656 | 0.064* | |
N1 | 0.3395 (4) | 0.1447 (3) | 0.5916 (2) | 0.0187 (6) | |
H1 | 0.3569 | 0.1223 | 0.5257 | 0.028* | |
N2 | 0.1802 (4) | 0.1506 (3) | 0.6022 (2) | 0.0180 (6) | |
H2 | 0.0765 | 0.1319 | 0.5442 | 0.027* | |
N3 | 0.6592 (4) | 0.3829 (3) | 1.0883 (3) | 0.0257 (7) | |
H3 | 0.7460 | 0.4504 | 1.1514 | 0.039* | |
N4 | 0.5377 (4) | 0.2712 (3) | 1.0874 (3) | 0.0258 (7) | |
H4 | 0.5349 | 0.2538 | 1.1493 | 0.039* | |
C1 | 0.6554 (5) | 0.1799 (4) | 0.7114 (3) | 0.0234 (7) | |
H1A | 0.6471 | 0.1075 | 0.6444 | 0.035* | |
H1B | 0.7093 | 0.1669 | 0.7832 | 0.035* | |
H1C | 0.7348 | 0.2663 | 0.7160 | 0.035* | |
C2 | 0.4662 (4) | 0.1783 (3) | 0.6970 (3) | 0.0177 (6) | |
C3 | 0.3866 (4) | 0.2073 (3) | 0.7775 (3) | 0.0166 (6) | |
C4 | 0.2052 (5) | 0.1896 (3) | 0.7155 (3) | 0.0170 (6) | |
C5 | 0.0607 (5) | 0.2117 (4) | 0.7573 (3) | 0.0214 (7) | |
H5A | 0.0232 | 0.2782 | 0.7324 | 0.032* | |
H5B | 0.1100 | 0.2446 | 0.8427 | 0.032* | |
H5C | −0.0478 | 0.1271 | 0.7247 | 0.032* | |
C6 | 0.7389 (6) | 0.4813 (4) | 0.9513 (4) | 0.0328 (9) | |
H6A | 0.6661 | 0.5334 | 0.9294 | 0.049* | |
H6B | 0.7720 | 0.4406 | 0.8865 | 0.049* | |
H6C | 0.8528 | 0.5407 | 1.0203 | 0.049* | |
C7 | 0.6265 (5) | 0.3747 (4) | 0.9783 (3) | 0.0220 (7) | |
C8 | 0.4757 (4) | 0.2539 (3) | 0.9055 (3) | 0.0182 (7) | |
C9 | 0.4230 (5) | 0.1919 (4) | 0.9770 (3) | 0.0217 (7) | |
C10 | 0.2721 (5) | 0.0618 (4) | 0.9475 (3) | 0.0284 (8) | |
H10A | 0.3207 | 0.0139 | 0.9932 | 0.043* | |
H10B | 0.2275 | 0.0074 | 0.8641 | 0.043* | |
H10C | 0.1688 | 0.0786 | 0.9657 | 0.043* |
U11 | U22 | U33 | U12 | U13 | U23 | |
Mo1 | 0.01313 (13) | 0.01293 (13) | 0.01334 (13) | 0.00395 (10) | 0.00461 (10) | 0.00438 (10) |
Mo2 | 0.01170 (12) | 0.01406 (13) | 0.01246 (13) | 0.00453 (10) | 0.00387 (10) | 0.00459 (10) |
Mo3 | 0.01286 (12) | 0.01270 (13) | 0.01204 (13) | 0.00454 (10) | 0.00481 (10) | 0.00448 (10) |
Mo4 | 0.01336 (13) | 0.01351 (13) | 0.01438 (14) | 0.00529 (10) | 0.00515 (10) | 0.00523 (10) |
O1 | 0.0178 (11) | 0.0178 (11) | 0.0175 (11) | 0.0056 (9) | 0.0050 (9) | 0.0067 (9) |
O2 | 0.0159 (10) | 0.0172 (11) | 0.0162 (11) | 0.0060 (9) | 0.0073 (9) | 0.0084 (9) |
O3 | 0.0211 (12) | 0.0179 (11) | 0.0167 (12) | 0.0063 (9) | 0.0064 (9) | 0.0038 (9) |
O4 | 0.0163 (11) | 0.0154 (10) | 0.0132 (11) | 0.0067 (9) | 0.0039 (9) | 0.0049 (9) |
O5 | 0.0153 (10) | 0.0140 (10) | 0.0114 (10) | 0.0043 (8) | 0.0026 (8) | 0.0024 (8) |
O6 | 0.0169 (11) | 0.0196 (11) | 0.0181 (12) | 0.0080 (9) | 0.0056 (9) | 0.0075 (9) |
O7 | 0.0147 (10) | 0.0129 (10) | 0.0142 (11) | 0.0073 (9) | 0.0027 (8) | 0.0039 (8) |
O8 | 0.0176 (11) | 0.0203 (11) | 0.0210 (12) | 0.0074 (9) | 0.0072 (9) | 0.0084 (10) |
O9 | 0.0173 (11) | 0.0158 (10) | 0.0169 (11) | 0.0073 (9) | 0.0069 (9) | 0.0078 (9) |
O10 | 0.0150 (10) | 0.0150 (10) | 0.0139 (11) | 0.0047 (8) | 0.0054 (9) | 0.0048 (8) |
O11 | 0.0202 (12) | 0.0211 (12) | 0.0223 (12) | 0.0073 (10) | 0.0092 (10) | 0.0040 (10) |
O12 | 0.0165 (11) | 0.0175 (11) | 0.0201 (12) | 0.0060 (9) | 0.0075 (9) | 0.0071 (9) |
O13 | 0.0204 (12) | 0.0265 (12) | 0.0213 (12) | 0.0099 (10) | 0.0066 (10) | 0.0115 (10) |
O14 | 0.061 (2) | 0.0304 (15) | 0.0259 (15) | 0.0123 (15) | 0.0073 (14) | 0.0092 (12) |
N1 | 0.0213 (14) | 0.0214 (14) | 0.0148 (13) | 0.0098 (11) | 0.0064 (11) | 0.0078 (11) |
N2 | 0.0148 (13) | 0.0180 (13) | 0.0178 (14) | 0.0058 (11) | 0.0030 (11) | 0.0059 (11) |
N3 | 0.0197 (14) | 0.0307 (16) | 0.0177 (15) | 0.0051 (13) | 0.0033 (12) | 0.0052 (13) |
N4 | 0.0280 (16) | 0.0339 (17) | 0.0174 (15) | 0.0100 (13) | 0.0099 (12) | 0.0131 (13) |
C1 | 0.0204 (16) | 0.0289 (18) | 0.0253 (18) | 0.0126 (14) | 0.0108 (14) | 0.0116 (15) |
C2 | 0.0164 (15) | 0.0185 (15) | 0.0187 (16) | 0.0056 (12) | 0.0067 (13) | 0.0089 (13) |
C3 | 0.0152 (15) | 0.0170 (15) | 0.0168 (16) | 0.0063 (12) | 0.0047 (12) | 0.0066 (12) |
C4 | 0.0188 (15) | 0.0146 (14) | 0.0167 (16) | 0.0065 (12) | 0.0050 (13) | 0.0062 (12) |
C5 | 0.0173 (16) | 0.0246 (17) | 0.0248 (18) | 0.0101 (13) | 0.0090 (14) | 0.0101 (14) |
C6 | 0.030 (2) | 0.032 (2) | 0.025 (2) | 0.0011 (17) | 0.0063 (16) | 0.0092 (17) |
C7 | 0.0192 (16) | 0.0273 (18) | 0.0167 (17) | 0.0095 (14) | 0.0041 (13) | 0.0067 (14) |
C8 | 0.0162 (15) | 0.0254 (16) | 0.0143 (16) | 0.0083 (13) | 0.0067 (13) | 0.0083 (13) |
C9 | 0.0194 (16) | 0.0284 (17) | 0.0207 (17) | 0.0133 (14) | 0.0083 (13) | 0.0097 (14) |
C10 | 0.0305 (19) | 0.0313 (19) | 0.0233 (18) | 0.0070 (16) | 0.0130 (16) | 0.0125 (16) |
Mo1—O3 | 1.709 (2) | N2—C4 | 1.343 (4) |
Mo1—O1 | 1.717 (2) | N2—H2 | 0.8800 |
Mo1—O4 | 1.960 (2) | N3—C7 | 1.344 (5) |
Mo1—O2 | 1.977 (2) | N3—N4 | 1.358 (4) |
Mo1—O10i | 2.226 (2) | N3—H3 | 0.8800 |
Mo1—O5 | 2.270 (2) | N4—C9 | 1.337 (5) |
Mo2—O6 | 1.704 (2) | N4—H4 | 0.8800 |
Mo2—O12ii | 1.767 (2) | C1—C2 | 1.483 (5) |
Mo2—O4 | 1.901 (2) | C1—H1A | 0.9800 |
Mo2—O7 | 1.920 (2) | C1—H1B | 0.9800 |
Mo2—O5 | 2.247 (2) | C1—H1C | 0.9800 |
Mo2—O9i | 2.276 (2) | C2—C3 | 1.378 (5) |
Mo3—O8 | 1.693 (2) | C3—C4 | 1.389 (5) |
Mo3—O9 | 1.755 (2) | C3—C8 | 1.475 (5) |
Mo3—O10 | 1.914 (2) | C4—C5 | 1.468 (5) |
Mo3—O5 | 1.930 (2) | C5—H5A | 0.9800 |
Mo3—O7 | 2.173 (2) | C5—H5B | 0.9800 |
Mo3—O5i | 2.438 (2) | C5—H5C | 0.9800 |
Mo4—O13 | 1.701 (2) | C6—C7 | 1.480 (5) |
Mo4—O11 | 1.702 (2) | C6—H6A | 0.9800 |
Mo4—O2i | 1.917 (2) | C6—H6B | 0.9800 |
Mo4—O7 | 2.111 (2) | C6—H6C | 0.9800 |
Mo4—O12 | 2.137 (2) | C7—C8 | 1.396 (5) |
Mo4—O10 | 2.317 (2) | C8—C9 | 1.392 (5) |
O14—H1W | 0.8500 | C9—C10 | 1.488 (5) |
O14—H2W | 0.8500 | C10—H10A | 0.9800 |
N1—C2 | 1.331 (4) | C10—H10B | 0.9800 |
N1—N2 | 1.349 (4) | C10—H10C | 0.9800 |
N1—H1 | 0.8800 | ||
O3—Mo1—O1 | 104.93 (11) | Mo2—O5—Mo3i | 95.06 (8) |
O3—Mo1—O4 | 98.60 (11) | Mo1—O5—Mo3i | 94.89 (8) |
O1—Mo1—O4 | 100.11 (11) | Mo2—O7—Mo4 | 147.24 (12) |
O3—Mo1—O2 | 100.41 (11) | Mo2—O7—Mo3 | 106.72 (10) |
O1—Mo1—O2 | 93.43 (10) | Mo4—O7—Mo3 | 106.03 (9) |
O4—Mo1—O2 | 152.92 (9) | Mo3—O9—Mo2i | 117.58 (11) |
O3—Mo1—O10i | 92.63 (10) | Mo3—O10—Mo1i | 113.66 (11) |
O1—Mo1—O10i | 160.53 (10) | Mo3—O10—Mo4 | 107.58 (10) |
O4—Mo1—O10i | 85.20 (9) | Mo1i—O10—Mo4 | 92.72 (8) |
O2—Mo1—O10i | 74.86 (9) | Mo2ii—O12—Mo4 | 174.18 (14) |
O3—Mo1—O5 | 164.36 (10) | H1W—O14—H2W | 108.4 |
O1—Mo1—O5 | 89.47 (10) | C2—N1—N2 | 109.0 (3) |
O4—Mo1—O5 | 72.41 (9) | C2—N1—H1 | 125.5 |
O2—Mo1—O5 | 84.47 (9) | N2—N1—H1 | 125.5 |
O10i—Mo1—O5 | 74.18 (8) | C4—N2—N1 | 109.1 (3) |
O6—Mo2—O12ii | 103.36 (11) | C4—N2—H2 | 125.5 |
O6—Mo2—O4 | 102.50 (11) | N1—N2—H2 | 125.5 |
O12ii—Mo2—O4 | 97.21 (10) | C7—N3—N4 | 109.6 (3) |
O6—Mo2—O7 | 104.48 (10) | C7—N3—H3 | 125.2 |
O12ii—Mo2—O7 | 97.76 (10) | N4—N3—H3 | 125.2 |
O4—Mo2—O7 | 145.03 (10) | C9—N4—N3 | 108.9 (3) |
O6—Mo2—O5 | 155.42 (10) | C9—N4—H4 | 125.6 |
O12ii—Mo2—O5 | 101.22 (10) | N3—N4—H4 | 125.6 |
O4—Mo2—O5 | 73.97 (9) | C2—C1—H1A | 109.5 |
O7—Mo2—O5 | 72.20 (9) | C2—C1—H1B | 109.5 |
O6—Mo2—O9i | 84.14 (10) | H1A—C1—H1B | 109.5 |
O12ii—Mo2—O9i | 172.42 (10) | C2—C1—H1C | 109.5 |
O4—Mo2—O9i | 79.91 (9) | H1A—C1—H1C | 109.5 |
O7—Mo2—O9i | 81.15 (9) | H1B—C1—H1C | 109.5 |
O5—Mo2—O9i | 71.27 (8) | N1—C2—C3 | 108.1 (3) |
O8—Mo3—O9 | 104.70 (11) | N1—C2—C1 | 120.6 (3) |
O8—Mo3—O10 | 101.07 (11) | C3—C2—C1 | 131.3 (3) |
O9—Mo3—O10 | 100.58 (10) | C2—C3—C4 | 106.7 (3) |
O8—Mo3—O5 | 105.33 (10) | C2—C3—C8 | 127.6 (3) |
O9—Mo3—O5 | 98.54 (10) | C4—C3—C8 | 125.6 (3) |
O10—Mo3—O5 | 142.05 (10) | N2—C4—C3 | 107.1 (3) |
O8—Mo3—O7 | 97.91 (10) | N2—C4—C5 | 122.8 (3) |
O9—Mo3—O7 | 157.34 (10) | C3—C4—C5 | 130.1 (3) |
O10—Mo3—O7 | 76.06 (9) | C4—C5—H5A | 109.5 |
O5—Mo3—O7 | 73.74 (9) | C4—C5—H5B | 109.5 |
O8—Mo3—O5i | 177.10 (10) | H5A—C5—H5B | 109.5 |
O9—Mo3—O5i | 75.94 (9) | C4—C5—H5C | 109.5 |
O10—Mo3—O5i | 76.02 (9) | H5A—C5—H5C | 109.5 |
O5—Mo3—O5i | 77.29 (9) | H5B—C5—H5C | 109.5 |
O7—Mo3—O5i | 81.54 (8) | C7—C6—H6A | 109.5 |
O13—Mo4—O11 | 105.56 (13) | C7—C6—H6B | 109.5 |
O13—Mo4—O2i | 100.12 (11) | H6A—C6—H6B | 109.5 |
O11—Mo4—O2i | 100.34 (11) | C7—C6—H6C | 109.5 |
O13—Mo4—O7 | 100.36 (11) | H6A—C6—H6C | 109.5 |
O11—Mo4—O7 | 150.18 (11) | H6B—C6—H6C | 109.5 |
O2i—Mo4—O7 | 89.23 (9) | N3—C7—C8 | 106.7 (3) |
O13—Mo4—O12 | 94.52 (11) | N3—C7—C6 | 122.1 (3) |
O11—Mo4—O12 | 86.83 (11) | C8—C7—C6 | 131.2 (3) |
O2i—Mo4—O12 | 161.24 (10) | C9—C8—C7 | 107.1 (3) |
O7—Mo4—O12 | 76.56 (9) | C9—C8—C3 | 127.7 (3) |
O13—Mo4—O10 | 167.79 (11) | C7—C8—C3 | 125.1 (3) |
O11—Mo4—O10 | 86.13 (11) | N4—C9—C8 | 107.7 (3) |
O2i—Mo4—O10 | 73.80 (9) | N4—C9—C10 | 121.7 (3) |
O7—Mo4—O10 | 69.39 (8) | C8—C9—C10 | 130.7 (3) |
O12—Mo4—O10 | 89.57 (9) | C9—C10—H10A | 109.5 |
Mo4i—O2—Mo1 | 115.25 (11) | C9—C10—H10B | 109.5 |
Mo2—O4—Mo1 | 116.63 (11) | H10A—C10—H10B | 109.5 |
Mo3—O5—Mo2 | 103.56 (10) | C9—C10—H10C | 109.5 |
Mo3—O5—Mo1 | 154.21 (12) | H10A—C10—H10C | 109.5 |
Mo2—O5—Mo1 | 93.35 (8) | H10B—C10—H10C | 109.5 |
Mo3—O5—Mo3i | 102.71 (9) | ||
O3—Mo1—O2—Mo4i | 73.62 (14) | O12—Mo4—O7—Mo2 | 90.2 (2) |
O1—Mo1—O2—Mo4i | 179.49 (13) | O10—Mo4—O7—Mo2 | −175.1 (3) |
O4—Mo1—O2—Mo4i | −60.3 (3) | O13—Mo4—O7—Mo3 | 179.97 (11) |
O10i—Mo1—O2—Mo4i | −16.30 (11) | O11—Mo4—O7—Mo3 | −29.9 (2) |
O5—Mo1—O2—Mo4i | −91.37 (12) | O2i—Mo4—O7—Mo3 | 79.83 (11) |
O6—Mo2—O4—Mo1 | 171.68 (12) | O12—Mo4—O7—Mo3 | −87.81 (10) |
O12ii—Mo2—O4—Mo1 | −82.86 (13) | O10—Mo4—O7—Mo3 | 6.87 (8) |
O7—Mo2—O4—Mo1 | 31.9 (2) | O8—Mo3—O7—Mo2 | −87.38 (12) |
O5—Mo2—O4—Mo1 | 16.80 (11) | O9—Mo3—O7—Mo2 | 89.1 (2) |
O9i—Mo2—O4—Mo1 | 90.05 (12) | O10—Mo3—O7—Mo2 | 173.11 (13) |
O3—Mo1—O4—Mo2 | 176.38 (13) | O5—Mo3—O7—Mo2 | 16.37 (10) |
O1—Mo1—O4—Mo2 | 69.42 (14) | O5i—Mo3—O7—Mo2 | 95.51 (10) |
O2—Mo1—O4—Mo2 | −49.4 (3) | O8—Mo3—O7—Mo4 | 91.48 (11) |
O10i—Mo1—O4—Mo2 | −91.68 (12) | O9—Mo3—O7—Mo4 | −92.1 (2) |
O5—Mo1—O4—Mo2 | −16.77 (11) | O10—Mo3—O7—Mo4 | −8.03 (10) |
O8—Mo3—O5—Mo2 | 80.22 (12) | O5—Mo3—O7—Mo4 | −164.78 (12) |
O9—Mo3—O5—Mo2 | −171.88 (10) | O5i—Mo3—O7—Mo4 | −85.64 (10) |
O10—Mo3—O5—Mo2 | −52.26 (19) | O8—Mo3—O9—Mo2i | −173.93 (12) |
O7—Mo3—O5—Mo2 | −13.72 (8) | O10—Mo3—O9—Mo2i | −69.40 (13) |
O5i—Mo3—O5—Mo2 | −98.48 (11) | O5—Mo3—O9—Mo2i | 77.66 (13) |
O8—Mo3—O5—Mo1 | −49.4 (3) | O7—Mo3—O9—Mo2i | 9.7 (3) |
O9—Mo3—O5—Mo1 | 58.5 (3) | O5i—Mo3—O9—Mo2i | 3.14 (10) |
O10—Mo3—O5—Mo1 | 178.1 (2) | O8—Mo3—O10—Mo1i | 170.73 (12) |
O7—Mo3—O5—Mo1 | −143.3 (3) | O9—Mo3—O10—Mo1i | 63.29 (13) |
O5i—Mo3—O5—Mo1 | 131.9 (3) | O5—Mo3—O10—Mo1i | −55.7 (2) |
O8—Mo3—O5—Mo3i | 178.70 (10) | O7—Mo3—O10—Mo1i | −93.76 (12) |
O9—Mo3—O5—Mo3i | −73.40 (10) | O5i—Mo3—O10—Mo1i | −9.18 (9) |
O10—Mo3—O5—Mo3i | 46.22 (19) | O8—Mo3—O10—Mo4 | −88.13 (12) |
O7—Mo3—O5—Mo3i | 84.76 (10) | O9—Mo3—O10—Mo4 | 164.43 (10) |
O5i—Mo3—O5—Mo3i | 0.0 | O5—Mo3—O10—Mo4 | 45.4 (2) |
O6—Mo2—O5—Mo3 | 101.7 (2) | O7—Mo3—O10—Mo4 | 7.37 (9) |
O12ii—Mo2—O5—Mo3 | −78.93 (11) | O5i—Mo3—O10—Mo4 | 91.95 (10) |
O4—Mo2—O5—Mo3 | −173.30 (12) | O13—Mo4—O10—Mo3 | −41.8 (5) |
O7—Mo2—O5—Mo3 | 15.70 (10) | O11—Mo4—O10—Mo3 | 154.77 (12) |
O9i—Mo2—O5—Mo3 | 102.16 (11) | O2i—Mo4—O10—Mo3 | −103.29 (12) |
O6—Mo2—O5—Mo1 | −98.0 (2) | O7—Mo4—O10—Mo3 | −7.87 (10) |
O12ii—Mo2—O5—Mo1 | 81.45 (10) | O12—Mo4—O10—Mo3 | 67.91 (11) |
O4—Mo2—O5—Mo1 | −12.92 (8) | O13—Mo4—O10—Mo1i | 74.0 (5) |
O7—Mo2—O5—Mo1 | 176.08 (11) | O11—Mo4—O10—Mo1i | −89.36 (10) |
O9i—Mo2—O5—Mo1 | −97.46 (9) | O2i—Mo4—O10—Mo1i | 12.59 (8) |
O6—Mo2—O5—Mo3i | −2.7 (3) | O7—Mo4—O10—Mo1i | 108.00 (10) |
O12ii—Mo2—O5—Mo3i | 176.67 (9) | O12—Mo4—O10—Mo1i | −176.21 (9) |
O4—Mo2—O5—Mo3i | 82.30 (9) | C2—N1—N2—C4 | 0.6 (4) |
O7—Mo2—O5—Mo3i | −88.70 (9) | C7—N3—N4—C9 | −1.5 (4) |
O9i—Mo2—O5—Mo3i | −2.24 (7) | N2—N1—C2—C3 | −0.4 (4) |
O3—Mo1—O5—Mo3 | −159.4 (3) | N2—N1—C2—C1 | 179.8 (3) |
O1—Mo1—O5—Mo3 | 43.2 (3) | N1—C2—C3—C4 | 0.0 (4) |
O4—Mo1—O5—Mo3 | 144.0 (3) | C1—C2—C3—C4 | 179.8 (3) |
O2—Mo1—O5—Mo3 | −50.3 (3) | N1—C2—C3—C8 | −177.6 (3) |
O10i—Mo1—O5—Mo3 | −126.1 (3) | C1—C2—C3—C8 | 2.3 (6) |
O3—Mo1—O5—Mo2 | 69.2 (4) | N1—N2—C4—C3 | −0.6 (4) |
O1—Mo1—O5—Mo2 | −88.16 (10) | N1—N2—C4—C5 | 177.2 (3) |
O4—Mo1—O5—Mo2 | 12.63 (8) | C2—C3—C4—N2 | 0.4 (4) |
O2—Mo1—O5—Mo2 | 178.35 (9) | C8—C3—C4—N2 | 178.0 (3) |
O10i—Mo1—O5—Mo2 | 102.54 (9) | C2—C3—C4—C5 | −177.2 (3) |
O3—Mo1—O5—Mo3i | −26.2 (4) | C8—C3—C4—C5 | 0.4 (6) |
O1—Mo1—O5—Mo3i | 176.47 (10) | N4—N3—C7—C8 | 1.2 (4) |
O4—Mo1—O5—Mo3i | −82.75 (9) | N4—N3—C7—C6 | −179.2 (4) |
O2—Mo1—O5—Mo3i | 82.97 (9) | N3—C7—C8—C9 | −0.5 (4) |
O10i—Mo1—O5—Mo3i | 7.17 (7) | C6—C7—C8—C9 | −180.0 (4) |
O6—Mo2—O7—Mo4 | 13.3 (3) | N3—C7—C8—C3 | 176.7 (3) |
O12ii—Mo2—O7—Mo4 | −92.7 (2) | C6—C7—C8—C3 | −2.7 (7) |
O4—Mo2—O7—Mo4 | 152.69 (18) | C2—C3—C8—C9 | −120.6 (4) |
O5—Mo2—O7—Mo4 | 167.9 (2) | C4—C3—C8—C9 | 62.2 (5) |
O9i—Mo2—O7—Mo4 | 94.8 (2) | C2—C3—C8—C7 | 62.7 (5) |
O6—Mo2—O7—Mo3 | −168.74 (11) | C4—C3—C8—C7 | −114.4 (4) |
O12ii—Mo2—O7—Mo3 | 85.23 (12) | N3—N4—C9—C8 | 1.2 (4) |
O4—Mo2—O7—Mo3 | −29.3 (2) | N3—N4—C9—C10 | −179.3 (3) |
O5—Mo2—O7—Mo3 | −14.12 (9) | C7—C8—C9—N4 | −0.5 (4) |
O9i—Mo2—O7—Mo3 | −87.19 (10) | C3—C8—C9—N4 | −177.6 (4) |
O13—Mo4—O7—Mo2 | −2.0 (3) | C7—C8—C9—C10 | −179.9 (4) |
O11—Mo4—O7—Mo2 | 148.1 (2) | C3—C8—C9—C10 | 3.0 (6) |
O2i—Mo4—O7—Mo2 | −102.2 (2) |
Symmetry codes: (i) −x+1, −y+1, −z+1; (ii) −x, −y+1, −z+1. |
D—H···A | D—H | H···A | D···A | D—H···A |
O14—H1W···O3iii | 0.85 | 2.16 | 3.010 (4) | 173 |
O14—H2W···O4 | 0.85 | 2.06 | 2.902 (4) | 173 |
N1—H1···O2 | 0.88 | 1.96 | 2.770 (4) | 152 |
N1—H1···O1 | 0.88 | 2.44 | 2.882 (4) | 112 |
N2—H2···O13ii | 0.88 | 2.18 | 2.940 (4) | 144 |
N2—H2···O1 | 0.88 | 2.33 | 2.830 (4) | 116 |
N3—H3···O6iv | 0.88 | 2.13 | 2.838 (4) | 137 |
N3—H3···O8v | 0.88 | 2.48 | 3.146 (4) | 133 |
N4—H4···O10v | 0.88 | 1.95 | 2.724 (4) | 147 |
Symmetry codes: (ii) −x, −y+1, −z+1; (iii) −x, −y, −z; (iv) x+1, y, z+1; (v) −x+1, −y+1, −z+2. |
(C10H16N4)2[SiMo12O40]·4H2O | F(000) = 4344 |
Mr = 2275.97 | Dx = 2.786 Mg m−3 |
Monoclinic, C2 | Mo Kα radiation, λ = 0.71073 Å |
a = 22.5418 (14) Å | Cell parameters from 8000 reflections |
b = 20.4965 (10) Å | θ = 2.5–28.1° |
c = 12.5203 (8) Å | µ = 2.81 mm−1 |
β = 110.270 (8)° | T = 173 K |
V = 5426.5 (6) Å3 | Prism, yellow |
Z = 4 | 0.16 × 0.12 × 0.10 mm |
Stoe IPDS diffractometer | 12670 independent reflections |
Radiation source: fine-focus sealed tube | 11002 reflections with I > 2σ(I) |
Graphite monochromator | Rint = 0.028 |
ϕ oscillation scans | θmax = 28.1°, θmin = 2.5° |
Absorption correction: numerical [X-RED (Stoe & Cie, 2001) and X-SHAPE (Stoe & Cie, 1999)] | h = −29→29 |
Tmin = 0.662, Tmax = 0.766 | k = −27→26 |
23905 measured reflections | l = −16→16 |
Refinement on F2 | Secondary atom site location: difference Fourier map |
Least-squares matrix: full | Hydrogen site location: inferred from neighbouring sites |
R[F2 > 2σ(F2)] = 0.027 | H-atom parameters constrained |
wR(F2) = 0.056 | w = 1/[σ2(Fo2) + (0.0291P)2] where P = (Fo2 + 2Fc2)/3 |
S = 0.91 | (Δ/σ)max = 0.002 |
12670 reflections | Δρmax = 1.59 e Å−3 |
775 parameters | Δρmin = −1.45 e Å−3 |
1 restraint | Absolute structure: Flack (1983), with how many Friedel pairs? |
Primary atom site location: structure-invariant direct methods | Absolute structure parameter: 0.29 (2) |
(C10H16N4)2[SiMo12O40]·4H2O | V = 5426.5 (6) Å3 |
Mr = 2275.97 | Z = 4 |
Monoclinic, C2 | Mo Kα radiation |
a = 22.5418 (14) Å | µ = 2.81 mm−1 |
b = 20.4965 (10) Å | T = 173 K |
c = 12.5203 (8) Å | 0.16 × 0.12 × 0.10 mm |
β = 110.270 (8)° |
Stoe IPDS diffractometer | 12670 independent reflections |
Absorption correction: numerical [X-RED (Stoe & Cie, 2001) and X-SHAPE (Stoe & Cie, 1999)] | 11002 reflections with I > 2σ(I) |
Tmin = 0.662, Tmax = 0.766 | Rint = 0.028 |
23905 measured reflections |
R[F2 > 2σ(F2)] = 0.027 | H-atom parameters constrained |
wR(F2) = 0.056 | Δρmax = 1.59 e Å−3 |
S = 0.91 | Δρmin = −1.45 e Å−3 |
12670 reflections | Absolute structure: Flack (1983), with how many Friedel pairs? |
775 parameters | Absolute structure parameter: 0.29 (2) |
1 restraint |
Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes. |
Refinement. Refinement of F2 against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F2, conventional R-factors R are based on F, with F set to zero for negative F2. The threshold expression of F2 > σ(F2) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F2 are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger. |
x | y | z | Uiso*/Ueq | ||
Mo1 | 0.27039 (2) | 0.24459 (2) | 0.98327 (3) | 0.02241 (9) | |
Mo2 | 0.12056 (2) | 0.23686 (2) | 0.73286 (4) | 0.02326 (9) | |
Mo3 | 0.10702 (2) | 0.32598 (2) | 0.50029 (4) | 0.02569 (10) | |
Mo4 | 0.22461 (2) | 0.45599 (2) | 0.51832 (3) | 0.02240 (9) | |
Mo5 | 0.36143 (2) | 0.46172 (2) | 0.74414 (4) | 0.02339 (9) | |
Mo6 | 0.37771 (2) | 0.36292 (2) | 1.00165 (4) | 0.02807 (11) | |
Mo7 | 0.36712 (2) | 0.23444 (2) | 0.83062 (4) | 0.02681 (10) | |
Mo8 | 0.21752 (2) | 0.20850 (2) | 0.58465 (4) | 0.02722 (10) | |
Mo9 | 0.33160 (2) | 0.33440 (2) | 0.56671 (4) | 0.02451 (10) | |
Mo10 | 0.15288 (2) | 0.37873 (2) | 0.92929 (4) | 0.02327 (9) | |
Mo11 | 0.11963 (2) | 0.46823 (2) | 0.69025 (4) | 0.02824 (11) | |
Mo12 | 0.25487 (2) | 0.49358 (2) | 0.91013 (4) | 0.02611 (10) | |
Si1 | 0.24232 (6) | 0.35020 (7) | 0.75005 (11) | 0.0145 (2) | |
O1 | 0.27037 (18) | 0.19928 (19) | 1.0969 (3) | 0.0285 (8) | |
O2 | 0.07212 (19) | 0.18284 (19) | 0.7627 (3) | 0.0319 (9) | |
O3 | 0.04220 (18) | 0.33569 (19) | 0.3831 (3) | 0.0324 (9) | |
O4 | 0.20033 (18) | 0.50264 (19) | 0.3982 (3) | 0.0285 (8) | |
O5 | 0.41496 (18) | 0.5226 (2) | 0.7719 (3) | 0.0318 (9) | |
O6 | 0.44321 (18) | 0.3874 (2) | 1.1065 (3) | 0.0365 (10) | |
O7 | 0.41735 (19) | 0.1731 (2) | 0.8321 (3) | 0.0337 (9) | |
O8 | 0.22042 (19) | 0.14086 (19) | 0.5073 (3) | 0.0309 (9) | |
O9 | 0.37560 (18) | 0.30871 (19) | 0.4901 (3) | 0.0292 (8) | |
O10 | 0.10972 (18) | 0.37311 (19) | 1.0150 (3) | 0.0302 (9) | |
O11 | 0.0623 (2) | 0.5244 (2) | 0.6334 (3) | 0.0355 (10) | |
O12 | 0.28070 (19) | 0.5594 (2) | 0.9980 (3) | 0.0334 (9) | |
O13 | 0.20087 (16) | 0.21693 (16) | 0.8665 (3) | 0.0224 (7) | |
O14 | 0.07061 (16) | 0.26905 (17) | 0.5934 (3) | 0.0213 (7) | |
O15 | 0.16378 (16) | 0.38388 (17) | 0.4728 (3) | 0.0204 (7) | |
O16 | 0.29795 (16) | 0.50150 (17) | 0.6030 (3) | 0.0214 (7) | |
O17 | 0.38924 (16) | 0.40960 (17) | 0.8704 (3) | 0.0234 (7) | |
O18 | 0.34485 (17) | 0.30113 (18) | 1.0772 (3) | 0.0254 (8) | |
O19 | 0.32953 (16) | 0.19672 (17) | 0.9389 (3) | 0.0235 (8) | |
O20 | 0.16030 (17) | 0.17719 (17) | 0.6523 (3) | 0.0244 (8) | |
O21 | 0.14382 (17) | 0.25115 (17) | 0.4658 (3) | 0.0238 (7) | |
O22 | 0.27944 (16) | 0.39651 (18) | 0.4673 (3) | 0.0225 (8) | |
O23 | 0.38660 (16) | 0.40799 (18) | 0.6476 (3) | 0.0233 (8) | |
O24 | 0.41639 (17) | 0.28783 (19) | 0.9450 (3) | 0.0279 (8) | |
O25 | 0.28758 (17) | 0.19856 (16) | 0.7140 (3) | 0.0219 (7) | |
O26 | 0.26682 (17) | 0.27117 (17) | 0.5311 (3) | 0.0226 (7) | |
O27 | 0.37005 (16) | 0.28656 (17) | 0.7098 (3) | 0.0226 (7) | |
O28 | 0.21912 (15) | 0.31963 (17) | 0.9965 (3) | 0.0208 (7) | |
O29 | 0.11588 (16) | 0.30898 (17) | 0.8191 (3) | 0.0221 (7) | |
O30 | 0.09334 (16) | 0.39644 (17) | 0.5986 (3) | 0.0232 (7) | |
O31 | 0.17614 (16) | 0.48679 (16) | 0.6020 (3) | 0.0214 (7) | |
O32 | 0.30249 (16) | 0.50089 (16) | 0.8162 (3) | 0.0221 (7) | |
O33 | 0.31995 (17) | 0.42813 (17) | 0.9966 (3) | 0.0228 (7) | |
O34 | 0.09754 (16) | 0.43771 (17) | 0.8131 (3) | 0.0243 (8) | |
O35 | 0.18096 (18) | 0.52770 (17) | 0.8051 (3) | 0.0257 (8) | |
O36 | 0.20414 (16) | 0.45208 (18) | 0.9937 (3) | 0.0253 (8) | |
O37 | 0.29520 (15) | 0.31164 (15) | 0.8545 (3) | 0.0176 (7) | |
O38 | 0.19139 (15) | 0.29846 (15) | 0.6711 (3) | 0.0175 (7) | |
O39 | 0.27717 (15) | 0.38755 (16) | 0.6722 (3) | 0.0176 (7) | |
O40 | 0.20679 (15) | 0.40419 (16) | 0.8022 (3) | 0.0181 (7) | |
N1 | 0.1334 (2) | 0.0400 (2) | 0.5454 (4) | 0.0315 (11) | |
H1 | 0.1671 | 0.0602 | 0.5418 | 0.047* | |
N2 | 0.1341 (3) | −0.0146 (3) | 0.6070 (4) | 0.0388 (13) | |
H2 | 0.1681 | −0.0360 | 0.6486 | 0.058* | |
C1 | 0.0568 (3) | 0.1165 (3) | 0.4137 (5) | 0.0361 (14) | |
H1A | 0.0423 | 0.1520 | 0.4509 | 0.054* | |
H1B | 0.0230 | 0.1046 | 0.3427 | 0.054* | |
H1C | 0.0941 | 0.1309 | 0.3967 | 0.054* | |
C2 | 0.0738 (2) | 0.0583 (3) | 0.4913 (5) | 0.0245 (11) | |
C3 | 0.0350 (3) | 0.0143 (3) | 0.5202 (5) | 0.0280 (12) | |
C4 | 0.0752 (3) | −0.0304 (3) | 0.5940 (5) | 0.0392 (15) | |
C5 | 0.0573 (4) | −0.0905 (4) | 0.6458 (8) | 0.065 (2) | |
H5A | 0.0523 | −0.1275 | 0.5938 | 0.098* | |
H5B | 0.0174 | −0.0827 | 0.6587 | 0.098* | |
H5C | 0.0907 | −0.1003 | 0.7185 | 0.098* | |
N3 | 0.3875 (2) | 0.2042 (3) | 1.2999 (4) | 0.0402 (13) | |
H3 | 0.3642 | 0.2175 | 1.2314 | 0.060* | |
N4 | 0.3661 (2) | 0.1698 (3) | 1.3691 (4) | 0.0392 (13) | |
H4 | 0.3268 | 0.1569 | 1.3535 | 0.059* | |
C6 | 0.4870 (3) | 0.2534 (3) | 1.2920 (5) | 0.0383 (15) | |
H6A | 0.5050 | 0.2232 | 1.2507 | 0.057* | |
H6B | 0.5212 | 0.2768 | 1.3497 | 0.057* | |
H6C | 0.4594 | 0.2848 | 1.2385 | 0.057* | |
C7 | 0.4494 (2) | 0.2159 (3) | 1.3488 (4) | 0.0279 (12) | |
C8 | 0.4677 (2) | 0.1865 (3) | 1.4569 (4) | 0.0238 (11) | |
C9 | 0.4137 (3) | 0.1580 (3) | 1.4655 (5) | 0.0298 (12) | |
C10 | 0.4056 (3) | 0.1189 (3) | 1.5603 (6) | 0.0467 (17) | |
H10A | 0.3678 | 0.0915 | 1.5303 | 0.070* | |
H10B | 0.4009 | 0.1484 | 1.6184 | 0.070* | |
H10C | 0.4428 | 0.0911 | 1.5941 | 0.070* | |
N5 | 0.1341 (2) | 0.5551 (2) | 0.0764 (4) | 0.0270 (10) | |
H5 | 0.1694 | 0.5728 | 0.0753 | 0.040* | |
N6 | 0.1291 (2) | 0.5179 (2) | 0.1607 (4) | 0.0283 (10) | |
H6 | 0.1606 | 0.5070 | 0.2227 | 0.042* | |
C11 | 0.0674 (3) | 0.6015 (3) | −0.1095 (5) | 0.0319 (13) | |
H11A | 0.0288 | 0.6274 | −0.1248 | 0.048* | |
H11B | 0.0628 | 0.5727 | −0.1744 | 0.048* | |
H11C | 0.1035 | 0.6307 | −0.0980 | 0.048* | |
C12 | 0.0780 (2) | 0.5615 (2) | −0.0055 (4) | 0.0217 (10) | |
C13 | 0.0347 (2) | 0.5259 (2) | 0.0311 (4) | 0.0208 (10) | |
C14 | 0.0684 (2) | 0.4997 (3) | 0.1360 (4) | 0.0255 (11) | |
C15 | 0.0480 (3) | 0.4581 (3) | 0.2145 (5) | 0.0390 (14) | |
H15A | 0.0530 | 0.4121 | 0.1987 | 0.058* | |
H15B | 0.0034 | 0.4670 | 0.2030 | 0.058* | |
H15C | 0.0740 | 0.4681 | 0.2934 | 0.058* | |
N7 | 0.3685 (2) | 0.7011 (3) | 0.8786 (4) | 0.0341 (11) | |
H7 | 0.3362 | 0.7240 | 0.8347 | 0.051* | |
N8 | 0.3642 (2) | 0.6471 (2) | 0.9360 (4) | 0.0301 (11) | |
H8 | 0.3287 | 0.6286 | 0.9345 | 0.045* | |
C16 | 0.4500 (3) | 0.7705 (3) | 0.8431 (6) | 0.0417 (15) | |
H16A | 0.4383 | 0.7621 | 0.7613 | 0.063* | |
H16B | 0.4960 | 0.7754 | 0.8771 | 0.063* | |
H16C | 0.4294 | 0.8107 | 0.8547 | 0.063* | |
C17 | 0.4291 (3) | 0.7148 (3) | 0.8981 (5) | 0.0286 (12) | |
C18 | 0.4656 (2) | 0.6685 (3) | 0.9743 (5) | 0.0237 (11) | |
C19 | 0.4228 (2) | 0.6255 (3) | 0.9965 (4) | 0.0250 (11) | |
C20 | 0.4341 (3) | 0.5661 (3) | 1.0689 (5) | 0.0348 (14) | |
H20A | 0.4032 | 0.5642 | 1.1078 | 0.052* | |
H20B | 0.4769 | 0.5676 | 1.1256 | 0.052* | |
H20C | 0.4297 | 0.5272 | 1.0211 | 0.052* | |
O1W | 0.24646 (18) | 0.12522 (19) | 1.3046 (3) | 0.0297 (9) | |
H1W | 0.2338 | 0.0934 | 1.2589 | 0.044* | |
H2W | 0.2301 | 0.1219 | 1.3562 | 0.044* | |
O3W | 0.2611 (2) | 0.5697 (2) | 0.2065 (4) | 0.0456 (12) | |
H5W | 0.2745 | 0.5631 | 0.1518 | 0.068* | |
H6W | 0.2635 | 0.6103 | 0.2213 | 0.068* | |
O2W | 0.2823 (3) | 0.7851 (3) | 0.7273 (4) | 0.0584 (15) | |
H3W | 0.2702 | 0.7853 | 0.6550 | 0.088* | |
H4W | 0.2539 | 0.8033 | 0.7473 | 0.088* | |
O4W | 0.2221 (3) | −0.0933 (3) | 0.7787 (5) | 0.088 (2) | |
H7W | 0.2382 | −0.0908 | 0.8509 | 0.132* | |
H8W | 0.2519 | −0.0927 | 0.7518 | 0.132* |
U11 | U22 | U33 | U12 | U13 | U23 | |
Mo1 | 0.0207 (2) | 0.0280 (2) | 0.01860 (19) | 0.00244 (18) | 0.00697 (16) | 0.00856 (18) |
Mo2 | 0.0258 (2) | 0.0249 (2) | 0.02067 (19) | −0.00880 (19) | 0.00998 (17) | −0.00188 (18) |
Mo3 | 0.0238 (2) | 0.0239 (2) | 0.0217 (2) | −0.00445 (18) | −0.00190 (17) | 0.00354 (18) |
Mo4 | 0.0209 (2) | 0.0247 (2) | 0.01956 (19) | 0.00069 (18) | 0.00435 (16) | 0.00855 (18) |
Mo5 | 0.0223 (2) | 0.0276 (2) | 0.01998 (19) | −0.00848 (19) | 0.00685 (16) | −0.00117 (18) |
Mo6 | 0.0265 (2) | 0.0282 (3) | 0.0207 (2) | −0.00436 (19) | −0.00313 (18) | 0.00405 (18) |
Mo7 | 0.0270 (2) | 0.0303 (2) | 0.0243 (2) | 0.0132 (2) | 0.01029 (18) | 0.00656 (19) |
Mo8 | 0.0305 (2) | 0.0228 (2) | 0.0313 (2) | −0.00369 (19) | 0.0145 (2) | −0.01038 (19) |
Mo9 | 0.0302 (2) | 0.0238 (2) | 0.0259 (2) | 0.00218 (18) | 0.01790 (19) | 0.00178 (18) |
Mo10 | 0.0265 (2) | 0.0239 (2) | 0.0248 (2) | −0.00014 (18) | 0.01576 (18) | −0.00031 (17) |
Mo11 | 0.0292 (2) | 0.0295 (2) | 0.0248 (2) | 0.0139 (2) | 0.00783 (18) | 0.00480 (19) |
Mo12 | 0.0283 (2) | 0.0226 (2) | 0.0295 (2) | −0.00686 (18) | 0.01268 (19) | −0.01027 (18) |
Si1 | 0.0147 (5) | 0.0151 (5) | 0.0124 (5) | −0.0005 (5) | 0.0033 (4) | 0.0008 (4) |
O1 | 0.035 (2) | 0.028 (2) | 0.0227 (18) | 0.0021 (16) | 0.0093 (16) | 0.0074 (15) |
O2 | 0.035 (2) | 0.030 (2) | 0.032 (2) | −0.0144 (17) | 0.0133 (17) | −0.0037 (16) |
O3 | 0.030 (2) | 0.036 (2) | 0.0243 (18) | −0.0089 (17) | 0.0003 (15) | 0.0048 (17) |
O4 | 0.032 (2) | 0.029 (2) | 0.0238 (18) | 0.0008 (16) | 0.0081 (15) | 0.0099 (15) |
O5 | 0.027 (2) | 0.036 (2) | 0.029 (2) | −0.0114 (17) | 0.0058 (16) | 0.0019 (17) |
O6 | 0.030 (2) | 0.043 (2) | 0.0246 (19) | −0.0121 (18) | −0.0057 (16) | 0.0051 (18) |
O7 | 0.033 (2) | 0.036 (2) | 0.037 (2) | 0.0179 (18) | 0.0180 (18) | 0.0142 (18) |
O8 | 0.039 (2) | 0.026 (2) | 0.032 (2) | −0.0045 (17) | 0.0168 (17) | −0.0097 (17) |
O9 | 0.036 (2) | 0.028 (2) | 0.032 (2) | −0.0007 (16) | 0.0223 (17) | −0.0018 (16) |
O10 | 0.036 (2) | 0.031 (2) | 0.0300 (19) | 0.0023 (17) | 0.0191 (17) | 0.0001 (16) |
O11 | 0.038 (2) | 0.033 (2) | 0.036 (2) | 0.0196 (18) | 0.0134 (19) | 0.0077 (17) |
O12 | 0.040 (2) | 0.031 (2) | 0.035 (2) | −0.0088 (18) | 0.0193 (18) | −0.0117 (18) |
O13 | 0.0269 (18) | 0.0186 (18) | 0.0220 (17) | 0.0045 (14) | 0.0088 (14) | 0.0014 (13) |
O14 | 0.0210 (17) | 0.0229 (18) | 0.0199 (17) | −0.0028 (14) | 0.0067 (14) | 0.0019 (13) |
O15 | 0.0227 (17) | 0.0185 (16) | 0.0195 (16) | −0.0004 (14) | 0.0066 (13) | 0.0016 (14) |
O16 | 0.0219 (17) | 0.0205 (18) | 0.0199 (17) | −0.0018 (14) | 0.0048 (14) | 0.0001 (14) |
O17 | 0.0228 (18) | 0.0261 (19) | 0.0229 (17) | 0.0006 (14) | 0.0102 (15) | 0.0018 (14) |
O18 | 0.0287 (19) | 0.0261 (19) | 0.0204 (17) | 0.0009 (15) | 0.0074 (15) | 0.0044 (14) |
O19 | 0.0232 (18) | 0.0256 (19) | 0.0233 (17) | 0.0060 (14) | 0.0102 (14) | 0.0069 (14) |
O20 | 0.030 (2) | 0.0189 (17) | 0.0241 (18) | −0.0017 (15) | 0.0090 (15) | −0.0027 (14) |
O21 | 0.0302 (18) | 0.0230 (18) | 0.0187 (16) | −0.0019 (15) | 0.0092 (14) | −0.0018 (14) |
O22 | 0.0217 (17) | 0.028 (2) | 0.0186 (16) | −0.0007 (14) | 0.0074 (14) | 0.0021 (14) |
O23 | 0.0191 (17) | 0.031 (2) | 0.0217 (17) | −0.0009 (15) | 0.0096 (14) | 0.0000 (15) |
O24 | 0.0207 (18) | 0.034 (2) | 0.0257 (19) | 0.0017 (15) | 0.0037 (15) | 0.0104 (16) |
O25 | 0.0286 (19) | 0.0184 (17) | 0.0225 (17) | −0.0013 (14) | 0.0137 (15) | −0.0002 (14) |
O26 | 0.0250 (18) | 0.0238 (18) | 0.0202 (17) | −0.0038 (15) | 0.0092 (14) | 0.0007 (14) |
O27 | 0.0202 (17) | 0.0249 (18) | 0.0219 (17) | 0.0033 (14) | 0.0061 (14) | 0.0061 (14) |
O28 | 0.0227 (17) | 0.0203 (17) | 0.0173 (16) | 0.0051 (14) | 0.0044 (13) | −0.0005 (13) |
O29 | 0.0237 (18) | 0.0210 (17) | 0.0211 (17) | 0.0025 (14) | 0.0072 (14) | −0.0026 (14) |
O30 | 0.0200 (17) | 0.0241 (18) | 0.0279 (18) | −0.0011 (14) | 0.0113 (14) | 0.0029 (15) |
O31 | 0.0221 (17) | 0.0169 (17) | 0.0258 (18) | 0.0004 (14) | 0.0090 (14) | 0.0013 (14) |
O32 | 0.0282 (18) | 0.0202 (17) | 0.0187 (16) | −0.0007 (15) | 0.0093 (14) | −0.0008 (14) |
O33 | 0.0271 (18) | 0.0245 (18) | 0.0165 (16) | −0.0025 (15) | 0.0072 (14) | −0.0017 (14) |
O34 | 0.0239 (18) | 0.0260 (19) | 0.0238 (17) | 0.0032 (14) | 0.0094 (14) | 0.0015 (14) |
O35 | 0.031 (2) | 0.0168 (17) | 0.0300 (19) | 0.0037 (15) | 0.0119 (16) | 0.0016 (15) |
O36 | 0.0275 (18) | 0.0267 (19) | 0.0212 (16) | 0.0007 (16) | 0.0076 (14) | −0.0053 (15) |
O37 | 0.0165 (16) | 0.0190 (16) | 0.0155 (15) | 0.0023 (13) | 0.0035 (13) | 0.0008 (13) |
O38 | 0.0196 (16) | 0.0160 (16) | 0.0183 (16) | −0.0008 (13) | 0.0081 (13) | 0.0001 (13) |
O39 | 0.0214 (16) | 0.0152 (15) | 0.0155 (14) | −0.0032 (13) | 0.0054 (13) | 0.0010 (13) |
O40 | 0.0197 (17) | 0.0178 (16) | 0.0170 (15) | −0.0010 (13) | 0.0064 (13) | −0.0010 (12) |
N1 | 0.028 (2) | 0.026 (2) | 0.041 (3) | 0.0013 (19) | 0.013 (2) | −0.001 (2) |
N2 | 0.044 (3) | 0.042 (3) | 0.035 (3) | 0.023 (2) | 0.020 (2) | 0.011 (2) |
C1 | 0.034 (3) | 0.025 (3) | 0.045 (3) | −0.003 (2) | 0.007 (3) | 0.007 (3) |
C2 | 0.023 (3) | 0.021 (3) | 0.029 (3) | 0.000 (2) | 0.010 (2) | −0.002 (2) |
C3 | 0.029 (3) | 0.029 (3) | 0.030 (3) | 0.003 (2) | 0.015 (2) | 0.000 (2) |
C4 | 0.051 (4) | 0.036 (3) | 0.045 (3) | 0.021 (3) | 0.034 (3) | 0.011 (3) |
C5 | 0.081 (6) | 0.049 (5) | 0.089 (6) | 0.023 (4) | 0.060 (5) | 0.041 (4) |
N3 | 0.030 (3) | 0.057 (3) | 0.023 (2) | 0.009 (2) | −0.005 (2) | −0.014 (2) |
N4 | 0.028 (3) | 0.054 (3) | 0.034 (3) | −0.005 (2) | 0.009 (2) | −0.018 (3) |
C6 | 0.051 (4) | 0.043 (4) | 0.020 (3) | 0.017 (3) | 0.012 (2) | 0.012 (2) |
C7 | 0.024 (3) | 0.034 (3) | 0.020 (2) | 0.009 (2) | 0.000 (2) | −0.006 (2) |
C8 | 0.021 (3) | 0.022 (3) | 0.025 (3) | 0.004 (2) | 0.004 (2) | −0.008 (2) |
C9 | 0.027 (3) | 0.033 (3) | 0.028 (3) | −0.004 (2) | 0.008 (2) | −0.014 (2) |
C10 | 0.047 (4) | 0.042 (4) | 0.052 (4) | −0.021 (3) | 0.019 (3) | −0.012 (3) |
N5 | 0.018 (2) | 0.027 (2) | 0.037 (3) | −0.0038 (18) | 0.0105 (18) | 0.000 (2) |
N6 | 0.020 (2) | 0.032 (3) | 0.026 (2) | 0.0020 (18) | −0.0012 (18) | 0.0075 (19) |
C11 | 0.036 (3) | 0.033 (3) | 0.029 (3) | −0.001 (2) | 0.013 (2) | 0.002 (2) |
C12 | 0.020 (2) | 0.019 (2) | 0.025 (2) | 0.0039 (19) | 0.006 (2) | −0.002 (2) |
C13 | 0.020 (2) | 0.018 (2) | 0.021 (2) | 0.0021 (19) | 0.004 (2) | −0.0036 (19) |
C14 | 0.022 (2) | 0.024 (3) | 0.026 (3) | 0.001 (2) | 0.002 (2) | 0.001 (2) |
C15 | 0.037 (3) | 0.040 (3) | 0.032 (3) | 0.000 (3) | 0.003 (2) | 0.017 (3) |
N7 | 0.023 (2) | 0.038 (3) | 0.038 (3) | 0.003 (2) | 0.007 (2) | 0.004 (2) |
N8 | 0.018 (2) | 0.033 (3) | 0.036 (2) | −0.0023 (19) | 0.0061 (19) | 0.005 (2) |
C16 | 0.049 (4) | 0.032 (3) | 0.051 (4) | 0.009 (3) | 0.027 (3) | 0.017 (3) |
C17 | 0.029 (3) | 0.031 (3) | 0.031 (3) | 0.002 (2) | 0.016 (2) | −0.001 (2) |
C18 | 0.017 (2) | 0.025 (3) | 0.028 (3) | −0.001 (2) | 0.006 (2) | −0.003 (2) |
C19 | 0.021 (2) | 0.026 (3) | 0.024 (3) | 0.003 (2) | 0.003 (2) | −0.007 (2) |
C20 | 0.030 (3) | 0.033 (3) | 0.037 (3) | −0.006 (2) | 0.006 (2) | 0.006 (3) |
O1W | 0.033 (2) | 0.029 (2) | 0.027 (2) | −0.0087 (16) | 0.0103 (16) | −0.0043 (16) |
O3W | 0.037 (2) | 0.052 (3) | 0.043 (3) | −0.010 (2) | 0.008 (2) | −0.021 (2) |
O2W | 0.084 (4) | 0.054 (3) | 0.029 (2) | 0.032 (3) | 0.010 (2) | 0.004 (2) |
O4W | 0.098 (5) | 0.111 (5) | 0.035 (3) | 0.070 (4) | −0.003 (3) | −0.010 (3) |
Mo1—O1 | 1.699 (4) | Si1—O37 | 1.636 (3) |
Mo1—O13 | 1.824 (3) | Si1—O39 | 1.638 (4) |
Mo1—O19 | 1.887 (4) | N1—C2 | 1.332 (7) |
Mo1—O28 | 1.965 (3) | N1—N2 | 1.357 (7) |
Mo1—O18 | 2.043 (4) | N1—H1 | 0.8800 |
Mo1—O37 | 2.329 (3) | N2—C4 | 1.321 (8) |
Mo2—O2 | 1.685 (4) | N2—H2 | 0.8800 |
Mo2—O14 | 1.842 (3) | C1—C2 | 1.503 (8) |
Mo2—O29 | 1.855 (3) | C1—H1A | 0.9800 |
Mo2—O20 | 1.985 (4) | C1—H1B | 0.9800 |
Mo2—O13 | 2.036 (3) | C1—H1C | 0.9800 |
Mo2—O38 | 2.366 (3) | C2—C3 | 1.389 (8) |
Mo3—O3 | 1.686 (4) | C3—C4 | 1.389 (8) |
Mo3—O15 | 1.863 (3) | C3—C3i | 1.481 (11) |
Mo3—O21 | 1.864 (4) | C4—C5 | 1.511 (9) |
Mo3—O30 | 1.989 (4) | C5—H5A | 0.9800 |
Mo3—O14 | 2.014 (3) | C5—H5B | 0.9800 |
Mo3—O38 | 2.385 (3) | C5—H5C | 0.9800 |
Mo4—O4 | 1.704 (4) | N3—N4 | 1.330 (8) |
Mo4—O31 | 1.867 (4) | N3—C7 | 1.336 (7) |
Mo4—O16 | 1.874 (3) | N3—H3 | 0.8800 |
Mo4—O15 | 1.962 (3) | N4—C9 | 1.331 (8) |
Mo4—O22 | 1.993 (4) | N4—H4 | 0.8800 |
Mo4—O39 | 2.345 (3) | C6—C7 | 1.494 (9) |
Mo5—O5 | 1.686 (4) | C6—H6A | 0.9800 |
Mo5—O17 | 1.830 (3) | C6—H6B | 0.9800 |
Mo5—O23 | 1.863 (4) | C6—H6C | 0.9800 |
Mo5—O32 | 2.013 (4) | C7—C8 | 1.407 (7) |
Mo5—O16 | 2.020 (3) | C8—C9 | 1.387 (8) |
Mo5—O39 | 2.355 (3) | C8—C8ii | 1.482 (10) |
Mo6—O6 | 1.677 (4) | C9—C10 | 1.495 (9) |
Mo6—O33 | 1.852 (4) | C10—H10A | 0.9800 |
Mo6—O18 | 1.879 (4) | C10—H10B | 0.9800 |
Mo6—O17 | 1.995 (3) | C10—H10C | 0.9800 |
Mo6—O24 | 2.015 (4) | N5—C12 | 1.329 (6) |
Mo6—O37 | 2.363 (3) | N5—N6 | 1.338 (6) |
Mo7—O7 | 1.688 (4) | N5—H5 | 0.8800 |
Mo7—O24 | 1.839 (4) | N6—C14 | 1.347 (7) |
Mo7—O27 | 1.872 (3) | N6—H6 | 0.8800 |
Mo7—O19 | 1.987 (4) | C11—C12 | 1.487 (7) |
Mo7—O25 | 2.018 (3) | C11—H11A | 0.9800 |
Mo7—O37 | 2.358 (3) | C11—H11B | 0.9800 |
Mo8—O8 | 1.705 (4) | C11—H11C | 0.9800 |
Mo8—O25 | 1.840 (3) | C12—C13 | 1.416 (7) |
Mo8—O20 | 1.884 (4) | C13—C14 | 1.378 (7) |
Mo8—O26 | 1.962 (4) | C13—C13iii | 1.487 (9) |
Mo8—O21 | 2.006 (3) | C14—C15 | 1.489 (8) |
Mo8—O38 | 2.315 (3) | C15—H15A | 0.9800 |
Mo9—O9 | 1.686 (4) | C15—H15B | 0.9800 |
Mo9—O22 | 1.881 (3) | C15—H15C | 0.9800 |
Mo9—O26 | 1.887 (3) | N7—C17 | 1.331 (7) |
Mo9—O27 | 1.961 (3) | N7—N8 | 1.343 (7) |
Mo9—O23 | 1.992 (4) | N7—H7 | 0.8800 |
Mo9—O39 | 2.358 (3) | N8—C19 | 1.349 (7) |
Mo10—O10 | 1.684 (4) | N8—H8 | 0.8800 |
Mo10—O28 | 1.880 (3) | C16—C17 | 1.491 (8) |
Mo10—O36 | 1.897 (4) | C16—H16A | 0.9800 |
Mo10—O29 | 1.961 (3) | C16—H16B | 0.9800 |
Mo10—O34 | 1.969 (3) | C16—H16C | 0.9800 |
Mo10—O40 | 2.370 (3) | C17—C18 | 1.395 (7) |
Mo11—O11 | 1.692 (4) | C18—C19 | 1.403 (8) |
Mo11—O30 | 1.834 (4) | C18—C18iv | 1.460 (10) |
Mo11—O34 | 1.880 (4) | C19—C20 | 1.487 (8) |
Mo11—O31 | 1.990 (4) | C20—H20A | 0.9800 |
Mo11—O35 | 2.022 (4) | C20—H20B | 0.9800 |
Mo11—O40 | 2.375 (3) | C20—H20C | 0.9800 |
Mo12—O12 | 1.711 (4) | O1W—H1W | 0.8500 |
Mo12—O32 | 1.853 (4) | O1W—H2W | 0.8500 |
Mo12—O35 | 1.865 (4) | O3W—H5W | 0.8500 |
Mo12—O36 | 1.989 (4) | O3W—H6W | 0.8500 |
Mo12—O33 | 2.006 (4) | O2W—H3W | 0.8500 |
Mo12—O40 | 2.311 (3) | O2W—H4W | 0.8500 |
Si1—O38 | 1.623 (3) | O4W—H7W | 0.8500 |
Si1—O40 | 1.630 (4) | O4W—H8W | 0.8500 |
O1—Mo1—O13 | 104.58 (17) | O35—Mo12—O33 | 159.93 (15) |
O1—Mo1—O19 | 99.64 (17) | O36—Mo12—O33 | 82.90 (15) |
O13—Mo1—O19 | 95.78 (15) | O12—Mo12—O40 | 170.88 (16) |
O1—Mo1—O28 | 100.76 (17) | O32—Mo12—O40 | 87.16 (13) |
O13—Mo1—O28 | 86.78 (14) | O35—Mo12—O40 | 76.20 (13) |
O19—Mo1—O28 | 158.09 (15) | O36—Mo12—O40 | 74.32 (13) |
O1—Mo1—O18 | 93.84 (16) | O33—Mo12—O40 | 83.82 (13) |
O13—Mo1—O18 | 160.70 (14) | O38—Si1—O40 | 110.23 (17) |
O19—Mo1—O18 | 86.62 (15) | O38—Si1—O37 | 109.71 (18) |
O28—Mo1—O18 | 84.12 (15) | O40—Si1—O37 | 109.31 (18) |
O1—Mo1—O37 | 166.38 (15) | O38—Si1—O39 | 109.06 (17) |
O13—Mo1—O37 | 88.52 (13) | O40—Si1—O39 | 108.95 (19) |
O19—Mo1—O37 | 74.90 (13) | O37—Si1—O39 | 109.57 (17) |
O28—Mo1—O37 | 83.43 (13) | Mo1—O13—Mo2 | 150.32 (19) |
O18—Mo1—O37 | 73.57 (12) | Mo2—O14—Mo3 | 121.24 (17) |
O2—Mo2—O14 | 102.44 (17) | Mo3—O15—Mo4 | 151.90 (19) |
O2—Mo2—O29 | 102.86 (18) | Mo4—O16—Mo5 | 120.84 (18) |
O14—Mo2—O29 | 97.31 (15) | Mo5—O17—Mo6 | 152.7 (2) |
O2—Mo2—O20 | 98.57 (17) | Mo6—O18—Mo1 | 118.76 (17) |
O14—Mo2—O20 | 88.52 (15) | Mo1—O19—Mo7 | 120.68 (18) |
O29—Mo2—O20 | 155.95 (15) | Mo8—O20—Mo2 | 121.21 (18) |
O2—Mo2—O13 | 98.40 (17) | Mo3—O21—Mo8 | 120.46 (17) |
O14—Mo2—O13 | 158.24 (15) | Mo9—O22—Mo4 | 121.11 (17) |
O29—Mo2—O13 | 83.98 (14) | Mo5—O23—Mo9 | 120.11 (18) |
O20—Mo2—O13 | 82.21 (14) | Mo7—O24—Mo6 | 120.70 (18) |
O2—Mo2—O38 | 170.23 (16) | Mo8—O25—Mo7 | 150.79 (19) |
O14—Mo2—O38 | 76.04 (13) | Mo9—O26—Mo8 | 148.47 (19) |
O29—Mo2—O38 | 86.90 (14) | Mo7—O27—Mo9 | 153.6 (2) |
O20—Mo2—O38 | 71.83 (13) | Mo10—O28—Mo1 | 149.97 (18) |
O13—Mo2—O38 | 82.36 (13) | Mo2—O29—Mo10 | 153.4 (2) |
O3—Mo3—O15 | 101.99 (16) | Mo11—O30—Mo3 | 152.1 (2) |
O3—Mo3—O21 | 102.51 (18) | Mo4—O31—Mo11 | 149.15 (19) |
O15—Mo3—O21 | 95.27 (15) | Mo12—O32—Mo5 | 150.40 (19) |
O3—Mo3—O30 | 100.33 (18) | Mo6—O33—Mo12 | 151.08 (19) |
O15—Mo3—O30 | 85.15 (15) | Mo11—O34—Mo10 | 121.95 (19) |
O21—Mo3—O30 | 156.54 (14) | Mo12—O35—Mo11 | 119.95 (18) |
O3—Mo3—O14 | 99.66 (16) | Mo10—O36—Mo12 | 119.46 (17) |
O15—Mo3—O14 | 156.91 (13) | Si1—O37—Mo1 | 123.74 (18) |
O21—Mo3—O14 | 87.75 (15) | Si1—O37—Mo7 | 124.42 (17) |
O30—Mo3—O14 | 83.18 (14) | Mo1—O37—Mo7 | 91.86 (11) |
O3—Mo3—O38 | 171.73 (15) | Si1—O37—Mo6 | 124.55 (18) |
O15—Mo3—O38 | 86.03 (12) | Mo1—O37—Mo6 | 92.05 (11) |
O21—Mo3—O38 | 74.49 (13) | Mo7—O37—Mo6 | 90.42 (11) |
O30—Mo3—O38 | 82.15 (13) | Si1—O38—Mo8 | 124.36 (18) |
O14—Mo3—O38 | 72.70 (12) | Si1—O38—Mo2 | 124.37 (18) |
O4—Mo4—O31 | 103.54 (17) | Mo8—O38—Mo2 | 92.15 (11) |
O4—Mo4—O16 | 99.84 (17) | Si1—O38—Mo3 | 124.60 (17) |
O31—Mo4—O16 | 94.99 (15) | Mo8—O38—Mo3 | 91.28 (11) |
O4—Mo4—O15 | 100.82 (16) | Mo2—O38—Mo3 | 90.03 (11) |
O31—Mo4—O15 | 86.09 (15) | Si1—O39—Mo4 | 123.95 (18) |
O16—Mo4—O15 | 158.45 (14) | Si1—O39—Mo5 | 124.29 (16) |
O4—Mo4—O22 | 96.06 (17) | Mo4—O39—Mo5 | 92.24 (11) |
O31—Mo4—O22 | 159.37 (14) | Si1—O39—Mo9 | 124.55 (18) |
O16—Mo4—O22 | 87.85 (15) | Mo4—O39—Mo9 | 91.67 (11) |
O15—Mo4—O22 | 83.95 (15) | Mo5—O39—Mo9 | 90.30 (12) |
O4—Mo4—O39 | 167.60 (16) | Si1—O40—Mo12 | 125.21 (18) |
O31—Mo4—O39 | 88.19 (13) | Si1—O40—Mo10 | 123.85 (18) |
O16—Mo4—O39 | 74.77 (13) | Mo12—O40—Mo10 | 91.60 (11) |
O15—Mo4—O39 | 83.76 (12) | Si1—O40—Mo11 | 124.03 (17) |
O22—Mo4—O39 | 72.82 (13) | Mo12—O40—Mo11 | 91.80 (11) |
O5—Mo5—O17 | 104.33 (17) | Mo10—O40—Mo11 | 90.36 (12) |
O5—Mo5—O23 | 102.35 (18) | C2—N1—N2 | 109.4 (5) |
O17—Mo5—O23 | 97.19 (15) | C2—N1—H1 | 125.3 |
O5—Mo5—O32 | 98.57 (17) | N2—N1—H1 | 125.3 |
O17—Mo5—O32 | 85.84 (15) | C4—N2—N1 | 108.6 (5) |
O23—Mo5—O32 | 157.35 (14) | C4—N2—H2 | 125.7 |
O5—Mo5—O16 | 96.96 (16) | N1—N2—H2 | 125.7 |
O17—Mo5—O16 | 156.65 (15) | C2—C1—H1A | 109.5 |
O23—Mo5—O16 | 87.36 (15) | C2—C1—H1B | 109.5 |
O32—Mo5—O16 | 81.57 (14) | H1A—C1—H1B | 109.5 |
O5—Mo5—O39 | 168.93 (15) | C2—C1—H1C | 109.5 |
O17—Mo5—O39 | 86.74 (13) | H1A—C1—H1C | 109.5 |
O23—Mo5—O39 | 75.92 (14) | H1B—C1—H1C | 109.5 |
O32—Mo5—O39 | 81.88 (13) | N1—C2—C3 | 107.5 (5) |
O16—Mo5—O39 | 72.12 (12) | N1—C2—C1 | 122.6 (5) |
O6—Mo6—O33 | 103.21 (19) | C3—C2—C1 | 129.9 (5) |
O6—Mo6—O18 | 101.63 (18) | C2—C3—C4 | 106.1 (5) |
O33—Mo6—O18 | 96.24 (16) | C2—C3—C3i | 127.2 (5) |
O6—Mo6—O17 | 99.82 (18) | C4—C3—C3i | 126.8 (5) |
O33—Mo6—O17 | 85.20 (15) | N2—C4—C3 | 108.5 (5) |
O18—Mo6—O17 | 157.55 (15) | N2—C4—C5 | 123.5 (6) |
O6—Mo6—O24 | 97.65 (19) | C3—C4—C5 | 127.8 (6) |
O33—Mo6—O24 | 157.55 (14) | C4—C5—H5A | 109.5 |
O18—Mo6—O24 | 87.50 (16) | C4—C5—H5B | 109.5 |
O17—Mo6—O24 | 83.15 (15) | H5A—C5—H5B | 109.5 |
O6—Mo6—O37 | 170.12 (18) | C4—C5—H5C | 109.5 |
O33—Mo6—O37 | 86.57 (13) | H5A—C5—H5C | 109.5 |
O18—Mo6—O37 | 75.61 (13) | H5B—C5—H5C | 109.5 |
O17—Mo6—O37 | 82.14 (13) | N4—N3—C7 | 110.7 (5) |
O24—Mo6—O37 | 72.88 (13) | N4—N3—H3 | 124.6 |
O7—Mo7—O24 | 102.30 (19) | C7—N3—H3 | 124.6 |
O7—Mo7—O27 | 102.90 (18) | N3—N4—C9 | 109.0 (5) |
O24—Mo7—O27 | 96.25 (16) | N3—N4—H4 | 125.5 |
O7—Mo7—O19 | 98.35 (17) | C9—N4—H4 | 125.5 |
O24—Mo7—O19 | 89.16 (16) | C7—C6—H6A | 109.5 |
O27—Mo7—O19 | 156.36 (14) | C7—C6—H6B | 109.5 |
O7—Mo7—O25 | 99.26 (18) | H6A—C6—H6B | 109.5 |
O24—Mo7—O25 | 157.80 (16) | C7—C6—H6C | 109.5 |
O27—Mo7—O25 | 83.94 (14) | H6A—C6—H6C | 109.5 |
O19—Mo7—O25 | 82.52 (14) | H6B—C6—H6C | 109.5 |
O7—Mo7—O37 | 170.66 (16) | N3—C7—C8 | 106.0 (5) |
O24—Mo7—O37 | 75.99 (14) | N3—C7—C6 | 123.3 (5) |
O27—Mo7—O37 | 86.43 (13) | C8—C7—C6 | 130.7 (5) |
O19—Mo7—O37 | 72.54 (13) | C9—C8—C7 | 106.4 (5) |
O25—Mo7—O37 | 81.88 (12) | C9—C8—C8ii | 127.6 (6) |
O8—Mo8—O25 | 102.68 (17) | C7—C8—C8ii | 126.0 (6) |
O8—Mo8—O20 | 98.35 (18) | N4—C9—C8 | 107.9 (5) |
O25—Mo8—O20 | 94.54 (15) | N4—C9—C10 | 122.4 (6) |
O8—Mo8—O26 | 101.56 (17) | C8—C9—C10 | 129.8 (5) |
O25—Mo8—O26 | 87.61 (15) | C9—C10—H10A | 109.5 |
O20—Mo8—O26 | 158.99 (15) | C9—C10—H10B | 109.5 |
O8—Mo8—O21 | 96.77 (17) | H10A—C10—H10B | 109.5 |
O25—Mo8—O21 | 159.83 (14) | C9—C10—H10C | 109.5 |
O20—Mo8—O21 | 87.83 (15) | H10A—C10—H10C | 109.5 |
O26—Mo8—O21 | 83.26 (14) | H10B—C10—H10C | 109.5 |
O8—Mo8—O38 | 168.24 (16) | C12—N5—N6 | 110.3 (4) |
O25—Mo8—O38 | 87.52 (13) | C12—N5—H5 | 124.8 |
O20—Mo8—O38 | 74.73 (13) | N6—N5—H5 | 124.8 |
O26—Mo8—O38 | 84.51 (13) | N5—N6—C14 | 109.4 (4) |
O21—Mo8—O38 | 73.76 (12) | N5—N6—H6 | 125.3 |
O9—Mo9—O22 | 100.99 (17) | C14—N6—H6 | 125.3 |
O9—Mo9—O26 | 102.17 (17) | C12—C11—H11A | 109.5 |
O22—Mo9—O26 | 93.06 (15) | C12—C11—H11B | 109.5 |
O9—Mo9—O27 | 101.71 (17) | H11A—C11—H11B | 109.5 |
O22—Mo9—O27 | 156.92 (15) | C12—C11—H11C | 109.5 |
O26—Mo9—O27 | 86.18 (14) | H11A—C11—H11C | 109.5 |
O9—Mo9—O23 | 98.09 (17) | H11B—C11—H11C | 109.5 |
O22—Mo9—O23 | 87.73 (15) | N5—C12—C13 | 106.1 (4) |
O26—Mo9—O23 | 159.18 (15) | N5—C12—C11 | 123.5 (5) |
O27—Mo9—O23 | 85.05 (14) | C13—C12—C11 | 130.3 (5) |
O9—Mo9—O39 | 170.48 (16) | C14—C13—C12 | 107.1 (4) |
O22—Mo9—O39 | 74.38 (13) | C14—C13—C13iii | 129.2 (6) |
O26—Mo9—O39 | 86.53 (13) | C12—C13—C13iii | 123.3 (5) |
O27—Mo9—O39 | 82.55 (13) | N6—C14—C13 | 106.9 (5) |
O23—Mo9—O39 | 73.64 (13) | N6—C14—C15 | 121.9 (5) |
O10—Mo10—O28 | 102.43 (17) | C13—C14—C15 | 131.1 (5) |
O10—Mo10—O36 | 100.63 (17) | C14—C15—H15A | 109.5 |
O28—Mo10—O36 | 92.75 (15) | C14—C15—H15B | 109.5 |
O10—Mo10—O29 | 101.52 (17) | H15A—C15—H15B | 109.5 |
O28—Mo10—O29 | 85.61 (14) | C14—C15—H15C | 109.5 |
O36—Mo10—O29 | 157.61 (15) | H15A—C15—H15C | 109.5 |
O10—Mo10—O34 | 98.92 (17) | H15B—C15—H15C | 109.5 |
O28—Mo10—O34 | 158.12 (15) | C17—N7—N8 | 109.6 (5) |
O36—Mo10—O34 | 87.94 (15) | C17—N7—H7 | 125.2 |
O29—Mo10—O34 | 85.51 (14) | N8—N7—H7 | 125.2 |
O10—Mo10—O40 | 170.60 (16) | N7—N8—C19 | 109.4 (5) |
O28—Mo10—O40 | 85.98 (13) | N7—N8—H8 | 125.3 |
O36—Mo10—O40 | 74.48 (13) | C19—N8—H8 | 125.3 |
O29—Mo10—O40 | 83.13 (13) | C17—C16—H16A | 109.5 |
O34—Mo10—O40 | 73.13 (13) | C17—C16—H16B | 109.5 |
O11—Mo11—O30 | 104.38 (19) | H16A—C16—H16B | 109.5 |
O11—Mo11—O34 | 101.01 (18) | C17—C16—H16C | 109.5 |
O30—Mo11—O34 | 97.21 (16) | H16A—C16—H16C | 109.5 |
O11—Mo11—O31 | 100.26 (18) | H16B—C16—H16C | 109.5 |
O30—Mo11—O31 | 86.34 (15) | N7—C17—C18 | 107.8 (5) |
O34—Mo11—O31 | 156.81 (14) | N7—C17—C16 | 123.0 (5) |
O11—Mo11—O35 | 97.08 (18) | C18—C17—C16 | 129.2 (5) |
O30—Mo11—O35 | 157.23 (15) | C17—C18—C19 | 106.3 (5) |
O34—Mo11—O35 | 85.91 (15) | C17—C18—C18iv | 125.9 (4) |
O31—Mo11—O35 | 82.40 (15) | C19—C18—C18iv | 127.7 (4) |
O11—Mo11—O40 | 168.30 (17) | N8—C19—C18 | 106.8 (5) |
O30—Mo11—O40 | 87.01 (13) | N8—C19—C20 | 122.6 (5) |
O34—Mo11—O40 | 74.49 (13) | C18—C19—C20 | 130.6 (5) |
O31—Mo11—O40 | 82.86 (13) | C19—C20—H20A | 109.5 |
O35—Mo11—O40 | 72.03 (13) | C19—C20—H20B | 109.5 |
O12—Mo12—O32 | 101.64 (17) | H20A—C20—H20B | 109.5 |
O12—Mo12—O35 | 100.36 (19) | C19—C20—H20C | 109.5 |
O32—Mo12—O35 | 95.41 (16) | H20A—C20—H20C | 109.5 |
O12—Mo12—O36 | 97.38 (17) | H20B—C20—H20C | 109.5 |
O32—Mo12—O36 | 159.03 (15) | H1W—O1W—H2W | 108.4 |
O35—Mo12—O36 | 89.74 (16) | H5W—O3W—H6W | 108.4 |
O12—Mo12—O33 | 99.10 (18) | H3W—O2W—H4W | 108.4 |
O32—Mo12—O33 | 85.44 (15) | H7W—O4W—H8W | 108.4 |
O1—Mo1—O13—Mo2 | 132.0 (4) | O40—Si1—O37—Mo7 | −174.51 (18) |
O19—Mo1—O13—Mo2 | −126.4 (4) | O39—Si1—O37—Mo7 | −55.2 (3) |
O28—Mo1—O13—Mo2 | 31.7 (4) | O38—Si1—O37—Mo6 | −176.62 (19) |
O18—Mo1—O13—Mo2 | −30.1 (8) | O40—Si1—O37—Mo6 | −55.6 (3) |
O37—Mo1—O13—Mo2 | −51.8 (4) | O39—Si1—O37—Mo6 | 63.7 (3) |
O2—Mo2—O13—Mo1 | −134.3 (4) | O1—Mo1—O37—Si1 | −158.6 (6) |
O14—Mo2—O13—Mo1 | 62.5 (6) | O13—Mo1—O37—Si1 | 37.2 (2) |
O29—Mo2—O13—Mo1 | −32.2 (4) | O19—Mo1—O37—Si1 | 133.6 (2) |
O20—Mo2—O13—Mo1 | 128.1 (4) | O28—Mo1—O37—Si1 | −49.7 (2) |
O38—Mo2—O13—Mo1 | 55.5 (4) | O18—Mo1—O37—Si1 | −135.5 (2) |
O2—Mo2—O14—Mo3 | −170.1 (2) | O1—Mo1—O37—Mo7 | 66.9 (7) |
O29—Mo2—O14—Mo3 | 85.0 (2) | O13—Mo1—O37—Mo7 | −97.37 (13) |
O20—Mo2—O14—Mo3 | −71.6 (2) | O19—Mo1—O37—Mo7 | −0.98 (12) |
O13—Mo2—O14—Mo3 | −7.1 (5) | O28—Mo1—O37—Mo7 | 175.71 (13) |
O38—Mo2—O14—Mo3 | 0.03 (18) | O18—Mo1—O37—Mo7 | 89.93 (13) |
O3—Mo3—O14—Mo2 | 176.7 (2) | O1—Mo1—O37—Mo6 | −23.6 (7) |
O15—Mo3—O14—Mo2 | −23.8 (5) | O13—Mo1—O37—Mo6 | 172.15 (13) |
O21—Mo3—O14—Mo2 | 74.4 (2) | O19—Mo1—O37—Mo6 | −91.46 (14) |
O30—Mo3—O14—Mo2 | −83.9 (2) | O28—Mo1—O37—Mo6 | 85.23 (12) |
O38—Mo3—O14—Mo2 | −0.03 (18) | O18—Mo1—O37—Mo6 | −0.55 (12) |
O3—Mo3—O15—Mo4 | 128.8 (4) | O24—Mo7—O37—Si1 | 133.2 (2) |
O21—Mo3—O15—Mo4 | −127.2 (4) | O27—Mo7—O37—Si1 | 35.9 (2) |
O30—Mo3—O15—Mo4 | 29.2 (4) | O19—Mo7—O37—Si1 | −133.2 (2) |
O14—Mo3—O15—Mo4 | −30.6 (7) | O25—Mo7—O37—Si1 | −48.5 (2) |
O38—Mo3—O15—Mo4 | −53.2 (4) | O24—Mo7—O37—Mo1 | −92.65 (14) |
O4—Mo4—O15—Mo3 | −134.4 (4) | O27—Mo7—O37—Mo1 | 169.99 (13) |
O31—Mo4—O15—Mo3 | −31.3 (4) | O19—Mo7—O37—Mo1 | 0.94 (12) |
O16—Mo4—O15—Mo3 | 62.4 (7) | O25—Mo7—O37—Mo1 | 85.61 (12) |
O22—Mo4—O15—Mo3 | 130.6 (4) | O24—Mo7—O37—Mo6 | −0.59 (13) |
O39—Mo4—O15—Mo3 | 57.3 (4) | O27—Mo7—O37—Mo6 | −97.95 (13) |
O4—Mo4—O16—Mo5 | −166.9 (2) | O19—Mo7—O37—Mo6 | 93.00 (14) |
O31—Mo4—O16—Mo5 | 88.4 (2) | O25—Mo7—O37—Mo6 | 177.67 (13) |
O15—Mo4—O16—Mo5 | −3.6 (5) | O33—Mo6—O37—Si1 | 37.6 (2) |
O22—Mo4—O16—Mo5 | −71.1 (2) | O18—Mo6—O37—Si1 | 135.0 (2) |
O39—Mo4—O16—Mo5 | 1.63 (18) | O17—Mo6—O37—Si1 | −48.0 (2) |
O5—Mo5—O16—Mo4 | 176.5 (2) | O24—Mo6—O37—Si1 | −133.2 (2) |
O17—Mo5—O16—Mo4 | −27.7 (5) | O33—Mo6—O37—Mo1 | −96.75 (14) |
O23—Mo5—O16—Mo4 | 74.4 (2) | O18—Mo6—O37—Mo1 | 0.59 (13) |
O32—Mo5—O16—Mo4 | −85.8 (2) | O17—Mo6—O37—Mo1 | 177.63 (14) |
O39—Mo5—O16—Mo4 | −1.64 (18) | O24—Mo6—O37—Mo1 | 92.42 (14) |
O5—Mo5—O17—Mo6 | 124.8 (4) | O33—Mo6—O37—Mo7 | 171.38 (14) |
O23—Mo5—O17—Mo6 | −130.5 (4) | O18—Mo6—O37—Mo7 | −91.28 (14) |
O32—Mo5—O17—Mo6 | 27.0 (4) | O17—Mo6—O37—Mo7 | 85.76 (13) |
O16—Mo5—O17—Mo6 | −30.4 (7) | O24—Mo6—O37—Mo7 | 0.55 (12) |
O39—Mo5—O17—Mo6 | −55.1 (4) | O40—Si1—O38—Mo8 | −176.44 (18) |
O6—Mo6—O17—Mo5 | −130.8 (5) | O37—Si1—O38—Mo8 | −56.0 (2) |
O33—Mo6—O17—Mo5 | −28.2 (4) | O39—Si1—O38—Mo8 | 64.0 (2) |
O18—Mo6—O17—Mo5 | 66.5 (7) | O40—Si1—O38—Mo2 | −54.9 (2) |
O24—Mo6—O17—Mo5 | 132.6 (4) | O37—Si1—O38—Mo2 | 65.5 (2) |
O37—Mo6—O17—Mo5 | 59.0 (4) | O39—Si1—O38—Mo2 | −174.50 (18) |
O6—Mo6—O18—Mo1 | −171.0 (2) | O40—Si1—O38—Mo3 | 63.3 (2) |
O33—Mo6—O18—Mo1 | 84.1 (2) | O37—Si1—O38—Mo3 | −176.32 (19) |
O17—Mo6—O18—Mo1 | −8.5 (5) | O39—Si1—O38—Mo3 | −56.3 (3) |
O24—Mo6—O18—Mo1 | −73.7 (2) | O8—Mo8—O38—Si1 | −171.5 (7) |
O37—Mo6—O18—Mo1 | −0.77 (17) | O25—Mo8—O38—Si1 | 38.0 (2) |
O1—Mo1—O18—Mo6 | 175.5 (2) | O20—Mo8—O38—Si1 | 133.4 (2) |
O13—Mo1—O18—Mo6 | −21.8 (6) | O26—Mo8—O38—Si1 | −49.8 (2) |
O19—Mo1—O18—Mo6 | 76.0 (2) | O21—Mo8—O38—Si1 | −134.4 (2) |
O28—Mo1—O18—Mo6 | −84.1 (2) | O8—Mo8—O38—Mo2 | 53.2 (8) |
O37—Mo1—O18—Mo6 | 0.79 (18) | O25—Mo8—O38—Mo2 | −97.22 (13) |
O1—Mo1—O19—Mo7 | −165.9 (2) | O20—Mo8—O38—Mo2 | −1.83 (13) |
O13—Mo1—O19—Mo7 | 88.2 (2) | O26—Mo8—O38—Mo2 | 174.95 (13) |
O28—Mo1—O19—Mo7 | −7.5 (5) | O21—Mo8—O38—Mo2 | 90.39 (13) |
O18—Mo1—O19—Mo7 | −72.5 (2) | O8—Mo8—O38—Mo3 | −36.8 (8) |
O37—Mo1—O19—Mo7 | 1.35 (17) | O25—Mo8—O38—Mo3 | 172.71 (14) |
O7—Mo7—O19—Mo1 | 176.5 (2) | O20—Mo8—O38—Mo3 | −91.90 (14) |
O24—Mo7—O19—Mo1 | 74.2 (2) | O26—Mo8—O38—Mo3 | 84.88 (13) |
O27—Mo7—O19—Mo1 | −29.6 (5) | O21—Mo8—O38—Mo3 | 0.31 (12) |
O25—Mo7—O19—Mo1 | −85.1 (2) | O14—Mo2—O38—Si1 | 133.5 (2) |
O37—Mo7—O19—Mo1 | −1.35 (17) | O29—Mo2—O38—Si1 | 35.1 (2) |
O8—Mo8—O20—Mo2 | −167.7 (2) | O20—Mo2—O38—Si1 | −133.5 (2) |
O25—Mo8—O20—Mo2 | 88.7 (2) | O13—Mo2—O38—Si1 | −49.2 (2) |
O26—Mo8—O20—Mo2 | −6.4 (5) | O14—Mo2—O38—Mo8 | −91.31 (14) |
O21—Mo8—O20—Mo2 | −71.2 (2) | O29—Mo2—O38—Mo8 | 170.37 (13) |
O38—Mo8—O20—Mo2 | 2.55 (17) | O20—Mo2—O38—Mo8 | 1.76 (12) |
O2—Mo2—O20—Mo8 | 175.6 (2) | O13—Mo2—O38—Mo8 | 86.03 (12) |
O14—Mo2—O20—Mo8 | 73.3 (2) | O14—Mo2—O38—Mo3 | −0.02 (13) |
O29—Mo2—O20—Mo8 | −31.5 (5) | O29—Mo2—O38—Mo3 | −98.35 (13) |
O13—Mo2—O20—Mo8 | −87.0 (2) | O20—Mo2—O38—Mo3 | 93.05 (14) |
O38—Mo2—O20—Mo8 | −2.53 (17) | O13—Mo2—O38—Mo3 | 177.32 (13) |
O3—Mo3—O21—Mo8 | −171.6 (2) | O15—Mo3—O38—Si1 | 37.6 (2) |
O15—Mo3—O21—Mo8 | 84.8 (2) | O21—Mo3—O38—Si1 | 134.2 (2) |
O30—Mo3—O21—Mo8 | −5.1 (5) | O30—Mo3—O38—Si1 | −48.0 (2) |
O14—Mo3—O21—Mo8 | −72.2 (2) | O14—Mo3—O38—Si1 | −133.3 (2) |
O38—Mo3—O21—Mo8 | 0.45 (17) | O15—Mo3—O38—Mo8 | −96.93 (14) |
O8—Mo8—O21—Mo3 | 172.4 (2) | O21—Mo3—O38—Mo8 | −0.34 (13) |
O25—Mo8—O21—Mo3 | −23.0 (5) | O30—Mo3—O38—Mo8 | 177.43 (14) |
O20—Mo8—O21—Mo3 | 74.3 (2) | O14—Mo3—O38—Mo8 | 92.17 (14) |
O26—Mo8—O21—Mo3 | −86.7 (2) | O15—Mo3—O38—Mo2 | 170.92 (14) |
O38—Mo8—O21—Mo3 | −0.47 (18) | O21—Mo3—O38—Mo2 | −92.49 (14) |
O9—Mo9—O22—Mo4 | −170.1 (2) | O30—Mo3—O38—Mo2 | 85.28 (13) |
O26—Mo9—O22—Mo4 | 86.9 (2) | O14—Mo3—O38—Mo2 | 0.02 (12) |
O27—Mo9—O22—Mo4 | −0.6 (5) | O38—Si1—O39—Mo4 | 64.2 (2) |
O23—Mo9—O22—Mo4 | −72.3 (2) | O40—Si1—O39—Mo4 | −56.2 (2) |
O39—Mo9—O22—Mo4 | 1.33 (17) | O37—Si1—O39—Mo4 | −175.71 (17) |
O4—Mo4—O22—Mo9 | 173.0 (2) | O38—Si1—O39—Mo5 | −174.74 (18) |
O31—Mo4—O22—Mo9 | −25.1 (5) | O40—Si1—O39—Mo5 | 64.9 (2) |
O16—Mo4—O22—Mo9 | 73.4 (2) | O37—Si1—O39—Mo5 | −54.6 (3) |
O15—Mo4—O22—Mo9 | −86.7 (2) | O38—Si1—O39—Mo9 | −56.2 (2) |
O39—Mo4—O22—Mo9 | −1.35 (17) | O40—Si1—O39—Mo9 | −176.58 (17) |
O5—Mo5—O23—Mo9 | −170.2 (2) | O37—Si1—O39—Mo9 | 63.9 (2) |
O17—Mo5—O23—Mo9 | 83.4 (2) | O4—Mo4—O39—Si1 | −160.7 (7) |
O32—Mo5—O23—Mo9 | −13.1 (5) | O31—Mo4—O39—Si1 | 38.0 (2) |
O16—Mo5—O23—Mo9 | −73.6 (2) | O16—Mo4—O39—Si1 | 133.7 (2) |
O39—Mo5—O23—Mo9 | −1.42 (17) | O15—Mo4—O39—Si1 | −48.2 (2) |
O9—Mo9—O23—Mo5 | 176.6 (2) | O22—Mo4—O39—Si1 | −133.8 (2) |
O22—Mo9—O23—Mo5 | 75.8 (2) | O4—Mo4—O39—Mo5 | 64.4 (7) |
O26—Mo9—O23—Mo5 | −16.8 (5) | O31—Mo4—O39—Mo5 | −96.88 (14) |
O27—Mo9—O23—Mo5 | −82.2 (2) | O16—Mo4—O39—Mo5 | −1.20 (13) |
O39—Mo9—O23—Mo5 | 1.43 (17) | O15—Mo4—O39—Mo5 | 176.87 (14) |
O7—Mo7—O24—Mo6 | −169.8 (2) | O22—Mo4—O39—Mo5 | 91.29 (14) |
O27—Mo7—O24—Mo6 | 85.5 (2) | O4—Mo4—O39—Mo9 | −26.0 (8) |
O19—Mo7—O24—Mo6 | −71.4 (2) | O31—Mo4—O39—Mo9 | 172.76 (13) |
O25—Mo7—O24—Mo6 | −3.7 (5) | O16—Mo4—O39—Mo9 | −91.57 (14) |
O37—Mo7—O24—Mo6 | 0.80 (18) | O15—Mo4—O39—Mo9 | 86.50 (13) |
O6—Mo6—O24—Mo7 | 176.3 (2) | O22—Mo4—O39—Mo9 | 0.92 (12) |
O33—Mo6—O24—Mo7 | −25.4 (5) | O5—Mo5—O39—Si1 | −143.0 (8) |
O18—Mo6—O24—Mo7 | 74.9 (2) | O17—Mo5—O39—Si1 | 36.4 (2) |
O17—Mo6—O24—Mo7 | −84.7 (2) | O23—Mo5—O39—Si1 | 134.7 (2) |
O37—Mo6—O24—Mo7 | −0.81 (18) | O32—Mo5—O39—Si1 | −49.8 (2) |
O8—Mo8—O25—Mo7 | 131.6 (4) | O16—Mo5—O39—Si1 | −133.5 (2) |
O20—Mo8—O25—Mo7 | −128.8 (4) | O5—Mo5—O39—Mo4 | −8.3 (9) |
O26—Mo8—O25—Mo7 | 30.3 (4) | O17—Mo5—O39—Mo4 | 171.09 (14) |
O21—Mo8—O25—Mo7 | −32.7 (7) | O23—Mo5—O39—Mo4 | −90.65 (14) |
O38—Mo8—O25—Mo7 | −54.3 (4) | O32—Mo5—O39—Mo4 | 84.84 (13) |
O7—Mo7—O25—Mo8 | −131.6 (4) | O16—Mo5—O39—Mo4 | 1.13 (12) |
O24—Mo7—O25—Mo8 | 62.2 (6) | O5—Mo5—O39—Mo9 | 83.4 (9) |
O27—Mo7—O25—Mo8 | −29.5 (4) | O17—Mo5—O39—Mo9 | −97.22 (14) |
O19—Mo7—O25—Mo8 | 131.1 (4) | O23—Mo5—O39—Mo9 | 1.03 (12) |
O37—Mo7—O25—Mo8 | 57.8 (4) | O32—Mo5—O39—Mo9 | 176.52 (13) |
O9—Mo9—O26—Mo8 | 129.5 (4) | O16—Mo5—O39—Mo9 | 92.81 (13) |
O22—Mo9—O26—Mo8 | −128.6 (4) | O22—Mo9—O39—Si1 | 133.3 (2) |
O27—Mo9—O26—Mo8 | 28.3 (4) | O26—Mo9—O39—Si1 | 39.2 (2) |
O23—Mo9—O26—Mo8 | −36.9 (7) | O27—Mo9—O39—Si1 | −47.4 (2) |
O39—Mo9—O26—Mo8 | −54.4 (4) | O23—Mo9—O39—Si1 | −134.4 (2) |
O8—Mo8—O26—Mo9 | −132.0 (4) | O22—Mo9—O39—Mo4 | −0.97 (13) |
O25—Mo8—O26—Mo9 | −29.6 (4) | O26—Mo9—O39—Mo4 | −95.12 (13) |
O20—Mo8—O26—Mo9 | 66.8 (6) | O27—Mo9—O39—Mo4 | 178.28 (14) |
O21—Mo8—O26—Mo9 | 132.4 (4) | O23—Mo9—O39—Mo4 | 91.27 (13) |
O38—Mo8—O26—Mo9 | 58.2 (4) | O22—Mo9—O39—Mo5 | −93.22 (14) |
O7—Mo7—O27—Mo9 | 127.7 (5) | O26—Mo9—O39—Mo5 | 172.63 (13) |
O24—Mo7—O27—Mo9 | −128.1 (5) | O27—Mo9—O39—Mo5 | 86.03 (13) |
O19—Mo7—O27—Mo9 | −25.8 (7) | O23—Mo9—O39—Mo5 | −0.98 (12) |
O25—Mo7—O27—Mo9 | 29.6 (5) | O38—Si1—O40—Mo12 | −175.44 (18) |
O37—Mo7—O27—Mo9 | −52.6 (5) | O37—Si1—O40—Mo12 | 63.9 (2) |
O9—Mo9—O27—Mo7 | −132.2 (5) | O39—Si1—O40—Mo12 | −55.8 (2) |
O22—Mo9—O27—Mo7 | 58.3 (7) | O38—Si1—O40—Mo10 | 63.6 (2) |
O26—Mo9—O27—Mo7 | −30.5 (5) | O37—Si1—O40—Mo10 | −57.1 (2) |
O23—Mo9—O27—Mo7 | 130.6 (5) | O39—Si1—O40—Mo10 | −176.76 (17) |
O39—Mo9—O27—Mo7 | 56.5 (5) | O38—Si1—O40—Mo11 | −53.9 (3) |
O10—Mo10—O28—Mo1 | 127.9 (4) | O37—Si1—O40—Mo11 | −174.57 (18) |
O36—Mo10—O28—Mo1 | −130.6 (4) | O39—Si1—O40—Mo11 | 65.7 (2) |
O29—Mo10—O28—Mo1 | 27.1 (4) | O32—Mo12—O40—Si1 | 37.9 (2) |
O34—Mo10—O28—Mo1 | −39.2 (7) | O35—Mo12—O40—Si1 | 134.1 (2) |
O40—Mo10—O28—Mo1 | −56.3 (4) | O36—Mo12—O40—Si1 | −132.2 (2) |
O1—Mo1—O28—Mo10 | −132.9 (4) | O33—Mo12—O40—Si1 | −47.9 (2) |
O13—Mo1—O28—Mo10 | −28.7 (4) | O32—Mo12—O40—Mo10 | 172.41 (13) |
O19—Mo1—O28—Mo10 | 68.8 (6) | O35—Mo12—O40—Mo10 | −91.31 (15) |
O18—Mo1—O28—Mo10 | 134.3 (4) | O36—Mo12—O40—Mo10 | 2.36 (12) |
O37—Mo1—O28—Mo10 | 60.2 (4) | O33—Mo12—O40—Mo10 | 86.69 (13) |
O2—Mo2—O29—Mo10 | 129.0 (5) | O32—Mo12—O40—Mo11 | −97.18 (13) |
O14—Mo2—O29—Mo10 | −126.4 (4) | O35—Mo12—O40—Mo11 | −0.90 (14) |
O20—Mo2—O29—Mo10 | −23.5 (7) | O36—Mo12—O40—Mo11 | 92.77 (14) |
O13—Mo2—O29—Mo10 | 31.7 (4) | O33—Mo12—O40—Mo11 | 177.10 (14) |
O38—Mo2—O29—Mo10 | −50.9 (4) | O28—Mo10—O40—Si1 | 39.0 (2) |
O10—Mo10—O29—Mo2 | −133.2 (5) | O36—Mo10—O40—Si1 | 133.0 (2) |
O28—Mo10—O29—Mo2 | −31.4 (5) | O29—Mo10—O40—Si1 | −47.0 (2) |
O36—Mo10—O29—Mo2 | 55.2 (7) | O34—Mo10—O40—Si1 | −134.4 (2) |
O34—Mo10—O29—Mo2 | 128.6 (5) | O28—Mo10—O40—Mo12 | −96.46 (13) |
O40—Mo10—O29—Mo2 | 55.1 (4) | O36—Mo10—O40—Mo12 | −2.47 (13) |
O11—Mo11—O30—Mo3 | 127.1 (4) | O29—Mo10—O40—Mo12 | 177.49 (13) |
O34—Mo11—O30—Mo3 | −129.5 (4) | O34—Mo10—O40—Mo12 | 90.12 (14) |
O31—Mo11—O30—Mo3 | 27.4 (4) | O28—Mo10—O40—Mo11 | 171.73 (13) |
O35—Mo11—O30—Mo3 | −32.9 (7) | O36—Mo10—O40—Mo11 | −94.29 (14) |
O40—Mo11—O30—Mo3 | −55.6 (4) | O29—Mo10—O40—Mo11 | 85.68 (12) |
O3—Mo3—O30—Mo11 | −128.5 (4) | O34—Mo10—O40—Mo11 | −1.69 (12) |
O15—Mo3—O30—Mo11 | −27.2 (4) | O11—Mo11—O40—Si1 | −156.9 (8) |
O21—Mo3—O30—Mo11 | 64.9 (6) | O30—Mo11—O40—Si1 | 36.0 (2) |
O14—Mo3—O30—Mo11 | 132.9 (4) | O34—Mo11—O40—Si1 | 134.3 (2) |
O38—Mo3—O30—Mo11 | 59.5 (4) | O31—Mo11—O40—Si1 | −50.7 (2) |
O4—Mo4—O31—Mo11 | 130.5 (4) | O35—Mo11—O40—Si1 | −135.0 (2) |
O16—Mo4—O31—Mo11 | −128.1 (4) | O11—Mo11—O40—Mo12 | −21.1 (9) |
O15—Mo4—O31—Mo11 | 30.3 (4) | O30—Mo11—O40—Mo12 | 171.82 (14) |
O22—Mo4—O31—Mo11 | −30.9 (7) | O34—Mo11—O40—Mo12 | −89.85 (14) |
O39—Mo4—O31—Mo11 | −53.5 (4) | O31—Mo11—O40—Mo12 | 85.14 (13) |
O11—Mo11—O31—Mo4 | −134.0 (4) | O35—Mo11—O40—Mo12 | 0.85 (13) |
O30—Mo11—O31—Mo4 | −30.0 (4) | O11—Mo11—O40—Mo10 | 70.5 (9) |
O34—Mo11—O31—Mo4 | 69.7 (6) | O30—Mo11—O40—Mo10 | −96.57 (13) |
O35—Mo11—O31—Mo4 | 130.1 (4) | O34—Mo11—O40—Mo10 | 1.76 (12) |
O40—Mo11—O31—Mo4 | 57.4 (4) | O31—Mo11—O40—Mo10 | 176.75 (13) |
O12—Mo12—O32—Mo5 | 127.9 (4) | O35—Mo11—O40—Mo10 | 92.46 (14) |
O35—Mo12—O32—Mo5 | −130.4 (4) | C2—N1—N2—C4 | −1.2 (7) |
O36—Mo12—O32—Mo5 | −26.8 (7) | N2—N1—C2—C3 | 0.6 (6) |
O33—Mo12—O32—Mo5 | 29.5 (4) | N2—N1—C2—C1 | −178.6 (5) |
O40—Mo12—O32—Mo5 | −54.5 (4) | N1—C2—C3—C4 | 0.2 (6) |
O5—Mo5—O32—Mo12 | −132.5 (4) | C1—C2—C3—C4 | 179.4 (6) |
O17—Mo5—O32—Mo12 | −28.6 (4) | N1—C2—C3—C3i | −179.3 (6) |
O23—Mo5—O32—Mo12 | 70.1 (6) | C1—C2—C3—C3i | −0.1 (10) |
O16—Mo5—O32—Mo12 | 131.7 (4) | N1—N2—C4—C3 | 1.3 (7) |
O39—Mo5—O32—Mo12 | 58.7 (4) | N1—N2—C4—C5 | 177.0 (6) |
O6—Mo6—O33—Mo12 | 130.1 (4) | C2—C3—C4—N2 | −0.9 (7) |
O18—Mo6—O33—Mo12 | −126.4 (4) | C3i—C3—C4—N2 | 178.6 (6) |
O17—Mo6—O33—Mo12 | 31.1 (4) | C2—C3—C4—C5 | −176.4 (7) |
O24—Mo6—O33—Mo12 | −27.8 (7) | C3i—C3—C4—C5 | 3.1 (11) |
O37—Mo6—O33—Mo12 | −51.3 (4) | C7—N3—N4—C9 | 0.0 (7) |
O12—Mo12—O33—Mo6 | −133.8 (4) | N4—N3—C7—C8 | −0.1 (6) |
O32—Mo12—O33—Mo6 | −32.7 (4) | N4—N3—C7—C6 | 179.9 (5) |
O35—Mo12—O33—Mo6 | 60.6 (7) | N3—C7—C8—C9 | 0.2 (6) |
O36—Mo12—O33—Mo6 | 129.8 (4) | C6—C7—C8—C9 | −179.9 (6) |
O40—Mo12—O33—Mo6 | 54.9 (4) | N3—C7—C8—C8ii | −179.9 (4) |
O11—Mo11—O34—Mo10 | −171.4 (2) | C6—C7—C8—C8ii | 0.1 (9) |
O30—Mo11—O34—Mo10 | 82.4 (2) | N3—N4—C9—C8 | 0.1 (7) |
O31—Mo11—O34—Mo10 | −15.2 (5) | N3—N4—C9—C10 | −178.5 (6) |
O35—Mo11—O34—Mo10 | −75.0 (2) | C7—C8—C9—N4 | −0.2 (6) |
O40—Mo11—O34—Mo10 | −2.50 (18) | C8ii—C8—C9—N4 | 179.9 (4) |
O10—Mo10—O34—Mo11 | 177.4 (2) | C7—C8—C9—C10 | 178.3 (6) |
O28—Mo10—O34—Mo11 | −15.3 (5) | C8ii—C8—C9—C10 | −1.6 (9) |
O36—Mo10—O34—Mo11 | 76.9 (2) | C12—N5—N6—C14 | −0.9 (6) |
O29—Mo10—O34—Mo11 | −81.7 (2) | N6—N5—C12—C13 | 0.5 (6) |
O40—Mo10—O34—Mo11 | 2.52 (18) | N6—N5—C12—C11 | 178.2 (5) |
O12—Mo12—O35—Mo11 | −170.1 (2) | N5—C12—C13—C14 | 0.1 (6) |
O32—Mo12—O35—Mo11 | 86.9 (2) | C11—C12—C13—C14 | −177.4 (5) |
O36—Mo12—O35—Mo11 | −72.7 (2) | N5—C12—C13—C13iii | 173.8 (4) |
O33—Mo12—O35—Mo11 | −4.6 (6) | C11—C12—C13—C13iii | −3.7 (8) |
O40—Mo12—O35—Mo11 | 1.22 (19) | N5—N6—C14—C13 | 1.0 (6) |
O11—Mo11—O35—Mo12 | 174.4 (2) | N5—N6—C14—C15 | −179.6 (5) |
O30—Mo11—O35—Mo12 | −25.1 (5) | C12—C13—C14—N6 | −0.7 (6) |
O34—Mo11—O35—Mo12 | 73.8 (2) | C13iii—C13—C14—N6 | −173.9 (4) |
O31—Mo11—O35—Mo12 | −86.1 (2) | C12—C13—C14—C15 | 180.0 (6) |
O40—Mo11—O35—Mo12 | −1.21 (19) | C13iii—C13—C14—C15 | 6.8 (9) |
O10—Mo10—O36—Mo12 | −168.4 (2) | C17—N7—N8—C19 | 1.4 (6) |
O28—Mo10—O36—Mo12 | 88.4 (2) | N8—N7—C17—C18 | −1.8 (6) |
O29—Mo10—O36—Mo12 | 3.2 (5) | N8—N7—C17—C16 | 177.5 (5) |
O34—Mo10—O36—Mo12 | −69.8 (2) | N7—C17—C18—C19 | 1.4 (6) |
O40—Mo10—O36—Mo12 | 3.30 (17) | C16—C17—C18—C19 | −177.8 (6) |
O12—Mo12—O36—Mo10 | 172.8 (2) | N7—C17—C18—C18iv | −174.7 (6) |
O32—Mo12—O36—Mo10 | −32.2 (5) | C16—C17—C18—C18iv | 6.1 (10) |
O35—Mo12—O36—Mo10 | 72.3 (2) | N7—N8—C19—C18 | −0.5 (6) |
O33—Mo12—O36—Mo10 | −88.9 (2) | N7—N8—C19—C20 | −179.6 (5) |
O40—Mo12—O36—Mo10 | −3.39 (17) | C17—C18—C19—N8 | −0.6 (6) |
O38—Si1—O37—Mo1 | −55.8 (2) | C18iv—C18—C19—N8 | 175.4 (6) |
O40—Si1—O37—Mo1 | 65.2 (2) | C17—C18—C19—C20 | 178.4 (6) |
O39—Si1—O37—Mo1 | −175.51 (17) | C18iv—C18—C19—C20 | −5.6 (10) |
O38—Si1—O37—Mo7 | 64.5 (2) |
Symmetry codes: (i) −x, y, −z+1; (ii) −x+1, y, −z+3; (iii) −x, y, −z; (iv) −x+1, y, −z+2. |
D—H···A | D—H | H···A | D···A | D—H···A |
O1W—H1W···O32v | 0.85 | 2.15 | 2.974 (5) | 164 |
O1W—H1W···O35v | 0.85 | 2.69 | 3.180 (6) | 119 |
O1W—H2W···O8vi | 0.85 | 2.02 | 2.814 (6) | 156 |
O1W—H2W···O16v | 0.85 | 2.64 | 3.094 (5) | 115 |
O2W—H3W···O26vii | 0.85 | 2.21 | 3.048 (6) | 171 |
O2W—H4W···O4Wviii | 0.85 | 2.31 | 3.012 (6) | 139 |
O3W—H5W···O12ix | 0.85 | 1.98 | 2.802 (6) | 163 |
O3W—H6W···O20vii | 0.85 | 2.33 | 2.991 (5) | 134 |
O3W—H6W···O25vii | 0.85 | 2.43 | 3.151 (6) | 143 |
O4W—H7W···O36v | 0.85 | 2.12 | 2.910 (6) | 154 |
O4W—H7W···O28v | 0.85 | 2.58 | 3.206 (6) | 131 |
O4W—H8W···O22x | 0.85 | 2.59 | 3.076 (7) | 117 |
O4W—H8W···O2Wxi | 0.85 | 2.64 | 3.012 (6) | 108 |
N1—H1···O8 | 0.88 | 2.17 | 2.999 (6) | 156 |
N1—H1···O16x | 0.88 | 2.52 | 2.910 (6) | 108 |
N2—H2···O4W | 0.88 | 2.03 | 2.864 (7) | 157 |
N2—H2···O22x | 0.88 | 2.57 | 3.039 (6) | 114 |
N3—H3···O1 | 0.88 | 2.23 | 2.966 (6) | 141 |
N3—H3···O18 | 0.88 | 2.50 | 3.285 (6) | 148 |
N4—H4···O1W | 0.88 | 1.82 | 2.693 (6) | 172 |
N5—H5···O3W | 0.88 | 2.15 | 2.776 (6) | 128 |
N5—H5···O19vii | 0.88 | 2.55 | 3.041 (6) | 116 |
N6—H6···O4 | 0.88 | 2.07 | 2.866 (6) | 150 |
N6—H6···O3W | 0.88 | 2.67 | 3.021 (6) | 105 |
N7—H7···O2W | 0.88 | 1.93 | 2.789 (7) | 165 |
N8—H8···O12 | 0.88 | 2.10 | 2.896 (6) | 150 |
N8—H8···O1xii | 0.88 | 2.58 | 3.107 (6) | 120 |
Symmetry codes: (v) −x+1/2, y−1/2, −z+2; (vi) x, y, z+1; (vii) −x+1/2, y+1/2, −z+1; (viii) x, y+1, z; (ix) x, y, z−1; (x) −x+1/2, y−1/2, −z+1; (xi) x, y−1, z; (xii) −x+1/2, y+1/2, −z+2. |
Experimental details
(I) | (II) | |
Crystal data | ||
Chemical formula | (C10H16N4)2[Mo8O26]·2H2O | (C10H16N4)2[SiMo12O40]·4H2O |
Mr | 1604.09 | 2275.97 |
Crystal system, space group | Triclinic, P1 | Monoclinic, C2 |
Temperature (K) | 173 | 173 |
a, b, c (Å) | 8.0821 (8), 11.2521 (11), 12.9231 (13) | 22.5418 (14), 20.4965 (10), 12.5203 (8) |
α, β, γ (°) | 106.242 (8), 106.063 (9), 106.102 (8) | 90, 110.270 (8), 90 |
V (Å3) | 1000.9 (2) | 5426.5 (6) |
Z | 1 | 4 |
Radiation type | Mo Kα | Mo Kα |
µ (mm−1) | 2.53 | 2.81 |
Crystal size (mm) | 0.14 × 0.12 × 0.08 | 0.16 × 0.12 × 0.10 |
Data collection | ||
Diffractometer | Stoe IPDS diffractometer | Stoe IPDS diffractometer |
Absorption correction | Numerical [X-RED (Stoe & Cie, 2001) and X-SHAPE (Stoe & Cie, 1999)] | Numerical [X-RED (Stoe & Cie, 2001) and X-SHAPE (Stoe & Cie, 1999)] |
Tmin, Tmax | 0.718, 0.823 | 0.662, 0.766 |
No. of measured, independent and observed [I > 2σ(I)] reflections | 9228, 4505, 3837 | 23905, 12670, 11002 |
Rint | 0.032 | 0.028 |
(sin θ/λ)max (Å−1) | 0.647 | 0.662 |
Refinement | ||
R[F2 > 2σ(F2)], wR(F2), S | 0.024, 0.060, 0.98 | 0.027, 0.056, 0.91 |
No. of reflections | 4505 | 12670 |
No. of parameters | 293 | 775 |
No. of restraints | 0 | 1 |
H-atom treatment | H-atom parameters constrained | H-atom parameters constrained |
Δρmax, Δρmin (e Å−3) | 0.74, −0.74 | 1.59, −1.45 |
Absolute structure | ? | Flack (1983), with how many Friedel pairs? |
Absolute structure parameter | ? | 0.29 (2) |
Computer programs: IPDS Software (Stoe & Cie, 2000), SHELXS97 (Sheldrick, 2008), SHELXL97 (Sheldrick, 2008), DIAMOND (Brandenburg, 1999), WinGX (Farrugia, 1999).
D—H···A | D—H | H···A | D···A | D—H···A |
O14—H1W···O3i | 0.85 | 2.16 | 3.010 (4) | 173 |
O14—H2W···O4 | 0.85 | 2.06 | 2.902 (4) | 173 |
N1—H1···O2 | 0.88 | 1.96 | 2.770 (4) | 152 |
N1—H1···O1 | 0.88 | 2.44 | 2.882 (4) | 112 |
N2—H2···O13ii | 0.88 | 2.18 | 2.940 (4) | 144 |
N2—H2···O1 | 0.88 | 2.33 | 2.830 (4) | 116 |
N3—H3···O6iii | 0.88 | 2.13 | 2.838 (4) | 137 |
N3—H3···O8iv | 0.88 | 2.48 | 3.146 (4) | 133 |
N4—H4···O10iv | 0.88 | 1.95 | 2.724 (4) | 147 |
Symmetry codes: (i) −x, −y, −z; (ii) −x, −y+1, −z+1; (iii) x+1, y, z+1; (iv) −x+1, −y+1, −z+2. |
O atom | Type | Mo—O distance(s) (Å) | ΣSi | V—ΣSi | Hydrogen-bond acceptor function |
O1 | Terminal | 1.717 (2) | 1.671 | -0.329 | N—H···O |
O3 | Terminal | 1.709 (2) | 1.708 | -0.292 | O—H···O |
O6 | Terminal | 1.704 (2) | 1.731 | -0.269 | N—H···O |
O8 | Terminal | 1.693 (2) | 1.783 | -0.217 | N—H···O |
O11 | Terminal | 1.702 (2) | 1.740 | -0.260 | None |
O13 | Terminal | 1.701 (2) | 1.745 | -0.255 | N—H···O |
O2 | µ2 | 1.917 (2), 1.977 (2) | 1.801 | -0.199 | N—H···O |
O4 | µ2 | 1.901 (2), 1.960 (2) | 1.883 | -0.117 | O—H···O |
O9 | µ2 | 1.755 (2), 2.276 (2) | 1.877 | -0.123 | None |
O12 | µ2 | 1.767 (2), 2.137 (2) | 1.997 | -0.003 | None |
O7 | µ3 | 1.920 (2)–2.173 (2) | 2.028 | 0.028 | None |
O10 | µ3 | 1.914 (2)–2.317 (2) | 1.733 | -0.267 | N—H···O |
O5 | µ4 | 1.930 (2)–2.438 (2) | 1.952 | -0.048 | - |
[Make this a tableneadnote] The valence sums are calculated with the formula Si = exp[(R0 - Ri)/B], where Si is the bond valence of bond i, R0 is a constant dependent on the bonded elements [R0(Mo—O) = 1.907], Ri is the bond length of bond i and B = 0.370. ΣSi is the bond-valence sum for the O atom and V is the predicted valence for a site. The bond-valence sums for the Mo atoms are ΣSi = 5.871–5.940. |
D—H···A | D—H | H···A | D···A | D—H···A |
O1W—H1W···O32i | 0.85 | 2.15 | 2.974 (5) | 164 |
O1W—H1W···O35i | 0.85 | 2.69 | 3.180 (6) | 119 |
O1W—H2W···O8ii | 0.85 | 2.02 | 2.814 (6) | 156 |
O1W—H2W···O16i | 0.85 | 2.64 | 3.094 (5) | 115 |
O2W—H3W···O26iii | 0.85 | 2.21 | 3.048 (6) | 171 |
O2W—H4W···O4Wiv | 0.85 | 2.31 | 3.012 (6) | 139 |
O3W—H5W···O12v | 0.85 | 1.98 | 2.802 (6) | 163 |
O3W—H6W···O20iii | 0.85 | 2.33 | 2.991 (5) | 134 |
O3W—H6W···O25iii | 0.85 | 2.43 | 3.151 (6) | 143 |
O4W—H7W···O36i | 0.85 | 2.12 | 2.910 (6) | 154 |
O4W—H7W···O28i | 0.85 | 2.58 | 3.206 (6) | 131 |
O4W—H8W···O22vi | 0.85 | 2.59 | 3.076 (7) | 117 |
O4W—H8W···O2Wvii | 0.85 | 2.64 | 3.012 (6) | 108 |
N1—H1···O8 | 0.88 | 2.17 | 2.999 (6) | 156 |
N1—H1···O16vi | 0.88 | 2.52 | 2.910 (6) | 108 |
N2—H2···O4W | 0.88 | 2.03 | 2.864 (7) | 157 |
N2—H2···O22vi | 0.88 | 2.57 | 3.039 (6) | 114 |
N3—H3···O1 | 0.88 | 2.23 | 2.966 (6) | 141 |
N3—H3···O18 | 0.88 | 2.50 | 3.285 (6) | 148 |
N4—H4···O1W | 0.88 | 1.82 | 2.693 (6) | 172 |
N5—H5···O3W | 0.88 | 2.15 | 2.776 (6) | 128 |
N5—H5···O19iii | 0.88 | 2.55 | 3.041 (6) | 116 |
N6—H6···O4 | 0.88 | 2.07 | 2.866 (6) | 150 |
N6—H6···O3W | 0.88 | 2.67 | 3.021 (6) | 105 |
N7—H7···O2W | 0.88 | 1.93 | 2.789 (7) | 165 |
N8—H8···O12 | 0.88 | 2.10 | 2.896 (6) | 150 |
N8—H8···O1viii | 0.88 | 2.58 | 3.107 (6) | 120 |
Symmetry codes: (i) −x+1/2, y−1/2, −z+2; (ii) x, y, z+1; (iii) −x+1/2, y+1/2, −z+1; (iv) x, y+1, z; (v) x, y, z−1; (vi) −x+1/2, y−1/2, −z+1; (vii) x, y−1, z; (viii) −x+1/2, y+1/2, −z+2. |
O-atom type | Mo—O bond range (Å) | ΣSi range | V—ΣSi mean | Number of O atoms | O—H···O | N—H···O |
Terminal | 1.677 (4)–1.711 (4) | 1.698–1.862 | -0.211 | 12 | 2 | 5 |
µ2 | 1.824 (4)–2.043 (4) | 1.771–2.019 | -0.083 | 24 | 9 | 4 |
µ4 | 2.311 (3)–2.385 (3) | 1.905–1.943 | -0.076 | 4 |
The valence sums are calculated using the formula Si = exp[(R0 - Ri)/B], where Si is a bond valence of bond i, R0 is a constant dependent on the bonded elements [R0 (Mo—O) = 1.907]; Ri is the bond length of bond i, and B = 0.370. V is the predicted valence for a site. The bond-valence sums for the Mo atoms are ΣSi = 5.877–5.970. |
Acknowledgements
The authors acknowledge support from the Deutsche Forschungsgemeinschaft (grant No. UKR 17/1/06) and from the State Fund for Fundamental Research of Ukraine (DFFD) (grant No. 09DF037-03).
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Pyrazole species attract general interest as versatile multipurpose tectons for the development of solid-state architecture (Halcrow, 2009). In this respect, bifunctional 3,3',5,5'-tetramethyl-4,4'-bipyrazole (Me4bpz) offers special potential as a symmetric neutral or anionic linker for discrete polynuclear complexes (Yu et al., 2005), open metal–organic polymers for adsorption applications (Zhang & Kitagawa, 2008; Rusanov et al., 2003), acentric hydrogen-bonded frameworks (Boldog et al., 2001) and binary cocrystals (Boldog et al., 2004). Even wider applications for the development of hydrogen-bonded structures could be anticipated for the 3,3',5,5'-tetramethyl-4,4'-bi-1H-pyrazole-2,2'-diium dication, [H2Me4bpz]2+. It may be viewed as a symmetric donor of four hydrogen bonds, while a particular benefit of the tecton structure arises from the spatial proximity of two NH groups supported by each of the pyrazolium rings. The latter favours multiple and multicentre interactions with the anionic substrate, which could be especially relevant for polynuclear and polymeric oxo- and halometallate anions, providing a number of closely separated hydrogen-bond acceptor sites. Therefore, bipyrazolium tectons may be applied as very specific cationic templates for metal–oxide materials, such as layered molybdenum(VI) and vanadium(V) oxides and low-dimensional isopolymolybdates(VI) (Hubbard et al., 2008; Hagrman et al., 1999). In this context, we have prepared two new salts based on the [H2Me4bpz]2+ cation and iso- and heteropolymolybdate anionic species, and report their structures here. Only a few previous works have considered the special supramolecular significance of hydrogen-bonded pyrazolium cations (Boldog et al., 2009; Singh et al., 2011).
The structure of poly[bis(3,3',5,5'-tetramethyl-4,4'-bi-1H-pyrazole-2,2'-diium) γ-octamolybdate(VI) dihydrate], (I), consists of one-dimensional polymolybdate anions running along the crystallographic a direction, [H2Me4bpz]2+ dications and solvent water molecules. The inorganic polyanion is built up of repeating centrosymmetric [Mo8O26]4- units sharing two pairs of opposite vertices and the corresponding oxide bridge is actually linear: Mo4—O12—Mo2ii = 174.18 (14)° [symmetry code: (ii) -x, -y + 1, -z + 1] (Fig. 1). The molecular shape and functionality of the [H2Me4bpz]2+ template is important for the structure of the infinite metal–oxide anion. The present connection mode is characteristic of polymeric octamolybdates crystallized as salts of the organic bases 4-aminopyridine (Nelson et al., 2006), N,N-dimethylethylenediamine (Thorn et al., 2005) and 1,4-diazabicyclo[2.2.2]octane (Fang et al., 2004), while the long cationic templates hexane-1,6-diamine (Xu et al., 1996) and 1,1'-[(biphenyl-4,4'-diyl)dimethylene]diimidazole (Liu et al., 2010) produced an isomeric one-dimensional polyoctamolybdate array. The [Mo8O26]4- units themselves adopt the γ-isomeric form of octamolybdate (Hagrman et al., 1999), with the typical octahedral environment of each metal ion involving three types of Mo—O bonds (2 + 2+2 coordination), viz. short molybdenyl bonds with terminal oxide ligands [1.693 (2)–1.717 (2) Å], Mo—µ2-O [1.901 (2)–1.977 (2) Å] and longer Mo—O bonds [2.173 (2)–2.438 (2) Å], with four µ3– and two µ4-oxide ligands.
Interaction of the bipyrazolium dications and one-dimensional oxoanions occurs by means of extensive N—H···O hydrogen bonding, utilizing most of the terminal O atoms (O1, O6, O8 and O13) as well as the µ-oxide centres O2 and O10 (Table 1). This is responsible for the connection of the components into hydrogen-bonded layers parallel to the ac plane (Fig. 2). Within these layers, successive oxide chains are situated at a distance of 12.9231 (13) Å (parameter c of the unit cell). Each pyrazolium ring is involved in bonding with two adjacent [Mo8O26]4- units along the chain. The high number of closely situated O-atom acceptor sites effects bifurcation of the hydrogen-bond interactions. This is a salient feature of such a system and it could be considered as a design tool. In this way, pyrazole ring A adopts four hydrogen bonds with three acceptor atoms (N—H···O = 112–152°), which is important for the densest accommodation of the cation on the metal oxide matrix (Fig. 2). The bonding mode of ring B is slightly different, with one three-centre bond of the N3—H donor and one directional N4—H···O10 interaction with a single acceptor site, which provides the shortest N···O contact [2.724 (4) Å]. Other N···O separations [2.770 (4)–3.146 (4) Å] (Table 1) are also typical for N—H···O bonding. However, they are slightly longer than the parameters derived from a statistical evaluation of pyrazolium salts (2.62–2.94 Å, distribution median = 2.74 Å; Boldog et al., 2009), due to bifurcation of the bonds. The present three-centre hydrogen bonding may be especially relevant for pyrazolium salts involving a high number of convenient acceptors, as provided by polyoxometallate species. This situation may also be related to the hydrogen-bonding patterns of 4,4'-bipyrazolium fluorometallate salts based upon [TaF6]-, [Zr2F12]4- and [BeF3-]n anions (Boldog et al., 2009). Bonding with water molecules extends this structure in a third dimension, with the formation of centrosymmetric anion–aqua fragments MoO6–(HOH)2–O6Mo involving two terminal and two µ2-O-atom acceptors (Fig. 2b). The O···O separations in the latter cases are slightly shorter: 2.902 (4) versus 3.010 (4) Å for O···O(terminal) (Table 1).
The asymmetric part of bis(3,3',5,5'-tetramethyl-4,4'-bi-1H-pyrazole-2,2'-diium) α-dodecamolybdo(VI)silicate tetrahydrate, (II), includes an [SiMo12O40]4- anion, four half-molecules of [H2Me4bpz]2+ and four water molecules (Fig. 3). The complete organic molecules are generated by crystallographic twofold symmetry. The [SiMo12O40]4- anions adopt the most common α-form, with the typical distorted octahedral coordination of 12 Mo atoms, which involve short bonds with terminal oxide ligands [Mo—O = 1.684 (4)–1.711 (4) Å] and elongated bonds with a µ4-O atom in a trans position [Mo—O = 2.315 (3)–2.385 (5) Å]. Four equatorial bonds with µ2-O ligands are in the range 1.824 (3)–2.043 (4) Å.
The anions, water molecules and 3,5-dimethylpyrazolium halves of the [H2Me4bpz]2+ tectons form clearly distinguishable hydrogen-bonded layers parallel to the bc plane (interlayer separation is 0.5a = 11.27 Å) (Fig. 4). This array is dominated by the packing of the very bulky anions and thus the pyrazolium and water hydrogen-bond donors appear intercalated in the voids of these layers. Hydrogen bonding between the [H2Me4bpz]2+ and [SiMo12O40]4- counterparts is itself weaker and less characteristic than in the case of (I). Firstly, for all four independent cations, only half of the NH donors interact directly with the metalloxide matrix, while the other interactions are expanded by inclusion of a water molecule: NH···OH···OMo (Fig. 4). This parallels the binding mode of [H2Me4bpz]2+ and the much smaller low nucleophilic anion S2O62- (Boldog et al., 2009). Secondly, the present N—H···O(Mo) hydrogen bonds [2.866 (6)–3.285 (6) Å] are appreciably longer than the N—H···OH2 hydrogen bonds [2.693 (6)–2.864 (7) Å] (Table 3) and also the N—H···O(Mo) hydrogen bonds in the case of (I). This reflects the weakness of the hydrogen bonding and such an observation may be related to only a very weak hydrogen-bond interaction in the (PyH)4[SiMo12O40]·0.5H2O salt [N···O = 3.05 (1)–3.29 (1) Å; PyH is pyridinium] (Dang & Jin, 2007).
Similar to (I), the preferred sites for establishing hydrogen bonds with the pyrazolium are the terminal oxide ligands (Fig. 3). For (II), weak interactions with µ2-O atoms [N···O = 3.041 (6) and 3.285 (6) Å] exist only as longer branches of three-centre bonds (Table 4). The present discrimination of the acceptor sites is likely predetermined by the relative negative charge located at the O atoms. Thus, the bond-valence sum calculations for (I) and (II) (Tables 2 and 4) suggest that the terminal oxide ligands are the most under-bonded and highly nucleophilic (Tytko et al., 1999). The same situation is reflected by the N—H···O hydrogen bonding with the µ2-O and µ3-O acceptors in (I), which occurs via the most nucleophilic sites O2 and O10 (Table 2). Steric accessibility of the terminal O atoms is the second important factor when considering the bulk volume of the dimethylpyrazolium substrate. It is notable that the bonding of small water molecules in (II) occurs preferentially with µ2-O atoms (Table 4).
In both structures, the organic tectons exhibit a typical twisted conformation [for (I), the C2—C3—C8—C7 torsion angle is 62.7 (5)°; for (II), the corresponding angles are in the range 64.1 (8)–75.0 (8)°]. The equivalence of the pyrazolium NH sites is best indicated by the angles at the N atoms (Domasevitch, 2008). They are actually uniform in all cases [108.9 (3) and 109.0 (3)° in (I), and 108.6 (5)–110.7 (5)° in (II)], while a neutral Me4bpz molecule (α-polymorph) displays a differentiation of these parameters according to the types C—N—N(H) = 104.1 (2)° and C—N(H)—N = 113.0 (2)° (Boldog et al., 2001).
In brief, the specific hydrogen-bond donor fuctionality of the pyrazolium group is well suited for the formation of multiple interactions with the polyoxometallate matrix, and bifunctional pyrazoles may be viewed as a new type of organic template for the synthesis of molybdate materials.