metal-organic compounds
Bis{[μ-bis(diphenylarsino)methane-1:2κ2As:As′]nonacarbonyl-1κ3C,2κ3C,3κ3C-[tris(4-methoxyphenyl)arsine-3κAs]-triangulo-triruthenium(0)} dichloromethane solvate
aChemical Sciences Programme, School of Distance Education, Universiti Sains Malaysia, 11800 USM, Penang, Malaysia, and bX-ray Crystallography Unit, School of Physics, Universiti Sains Malaysia, 11800 USM, Penang, Malaysia
*Correspondence e-mail: omarsa@usm.my
The triangulo-triruthenium compound, 2[Ru3(C25H22As2)(C21H21AsO3)(CO)9]·CH2Cl2, contains one triangulo-triruthenium complex molecule and one half of the dichloromethane solvent. The dichloromethane solvent lies across a crystallographic inversion center leading to the molecule being disordered over two positions of equal occupancy. The bis(diphenylarsino)methane ligand bridges an Ru—Ru bond and the monodentate arsine ligand bonds to the third Ru atom. Both the arsine ligands are equatorial with respect to the Ru3 triangle. In addition, each Ru atom carries one equatorial and two axial terminal carbonyl ligands. The trimethoxyphenylarsino benzene rings make dihedral angles of 83.01 (8), 65.81 (8) and 76.20 (8)° with each other. The dihedral angles between the two benzene rings are 82.69 (9) and 78.83 (9)° for the two diphenylarsino groups. In the crystal packing, the molecules are stacked along the a axis and weak intermolecular C—H⋯π interactions stabilize the crystal structure.
of the titleRelated literature
For general background to triangulo-triruthenium derivatives, see: Bruce et al. (1985, 1988a,b). For related structures, see: Shawkataly et al. (1998, 2004, 2009, 2010). For the synthesis of tris(4-methoxyphenyl)arsine, see: Blicke & Cataline (1938). For the synthesis of μ-bis(diphenylarsino)methanedecacarbonyltriruthenium(0), see: Bruce et al. (1983). For the stability of the temperature controller used for the data collection, see: Cosier & Glazer (1986).
Experimental
Crystal data
|
Refinement
|
Data collection: APEX2 (Bruker, 2005); cell SAINT (Bruker, 2005); data reduction: SAINT; program(s) used to solve structure: SHELXTL (Sheldrick, 2008); program(s) used to refine structure: SHELXTL; molecular graphics: SHELXTL; software used to prepare material for publication: SHELXTL and PLATON (Spek, 2009).
Supporting information
https://doi.org/10.1107/S160053680905315X/tk2594sup1.cif
contains datablocks global, I. DOI:Structure factors: contains datablock I. DOI: https://doi.org/10.1107/S160053680905315X/tk2594Isup2.hkl
The reactions were conducted under a atmosphere of high purity nitrogen using standard Schlenk techniques and hexane-dried over sodium metal. Tris(4-methoxyphenyl)arsine (Blicke et al., 1938) and bis(diphenylarsino)methanedecacarbonyltriruthenium(0) (Bruce et al., 1983) were prepared by reported procedures. The title compound was obtained by refluxing equimolar quantities of Ru3(CO)10(µ-Ph2AsCH2AsPh2) (105.5 mg, 0.1 mmol) and tris(4-methoxyphenyl)arsine (39.63 mg, 0.1 mmol) in hexane under nitrogen atmosphere. Crystals suitable for X-ray diffraction were grown by slow solvent / solvent diffusion of CH3OH into CHCl3.
All hydrogen atoms were positioned geometrically and refined using a riding model with C—H = 0.93–0.97 Å and Uiso(H) = 1.2 or 1.5 Ueq(C). A rotating group model was applied for the methyl groups. The dichloromethane solvent lies across a crystallographic inversion center leading to the molecule being disordered over two positions of equal occupancy. The maximum and minimum residual electron density peaks of 0.73 and -1.73 eÅ-3, respectively, were located 0.84 Å and 0.56 Å from the Cl1 atom.
Triangulo-triruthenium clusters are known for their interesting structural variations and related
A large number of substituted derivatives, Ru3(CO)12-nLn (L=15 group ligand) have been reported (Bruce et al., 1985, 1988a,b). As part of our study on the substitution of transition metal-carbonyl clusters with mixed-ligand complexes, we have published several structures of triangulo-triruthenium-carbonyl clusters containing mixed P/As and P/Sb ligands (Shawkataly et al., 1998, 2004, 2009,2010). Herein, we report the synthesis and structure of title compound.The
consists of one molecule of the triangulo-triruthenium complex and half a molecule of dichloromethane solvent (Fig. 1). The dichloromethane solvent lies across a crystallographic inversion center leading to the molecule being disordered over two positions of equal occupancy. The bond lengths and angles of title compound are comparable to those found in related structure (Shawkataly et al., 2009,2010). The bis(diphenylarsino)methane ligand bridges the Ru1—Ru2 bond and the monodentate arsine ligand bonds to the Ru3 atom. Both the arsine ligands are equatorial with respect to the Ru3 triangle. Additionally, each Ru atom carries one equatorial and two axial terminal carbonyl ligands. The trimethoxyphenylarsino benzene rings make dihedral angles (C26–C31/C32–C37, C26–C31/C38–C43 and C32–C37/C38–C43) of 83.01 (8), 65.81 (8) and 76.20 (8)° with each other, respectively. The dihedral angles between the two benzene rings (C1–C6/C7–C12 and C14–C19/C20–C25) are 82.69 (9) and 78.83 (9)° for the two diphenylarsino groups, respectively.In the crystal packing (Fig. 2), the molecules are stacked along a axis and weak intermolecular C—H···π interactions stabilize the (Table 1).
For general background to triangulo-triruthenium derivatives, see: Bruce et al. (1985, 1988a,b). For related structures, see: Shawkataly et al. (1998, 2004, 2009, 2010). For the synthesis of tris(4-methoxyphenyl)arsine, see: Blicke et al. (1938). For the synthesis of bis(diphenylarsino)methanedecacarbonyltriruthenium(0), see: Bruce et al. (1983). For the stability of the temperature controller used for the data collection, see: Cosier & Glazer (1986).
Data collection: APEX2 (Bruker, 2005); cell
SAINT (Bruker, 2005); data reduction: SAINT (Bruker, 2005); program(s) used to solve structure: SHELXTL (Sheldrick, 2008); program(s) used to refine structure: SHELXTL (Sheldrick, 2008); molecular graphics: SHELXTL (Sheldrick, 2008); software used to prepare material for publication: SHELXTL (Sheldrick, 2008) and PLATON (Spek, 2009).Fig. 1. The molecular structure of the title compound with 30% probability ellipsoids for non-H atoms. Atoms with suffix A are generated by the symmetry operation (1 - x, 1 - y, 1 - z). | |
Fig. 2. The crystal packing of the title compound, viewed down the a axis, showing the molecules stacked along a axis. The solvent molecules have been omitted for clarity. |
2[Ru3(C25H22As2)(C21H21As)(CO)9]·CH2Cl2 | Z = 1 |
Mr = 2932.65 | F(000) = 1442 |
Triclinic, P1 | Dx = 1.808 Mg m−3 |
Hall symbol: -P 1 | Mo Kα radiation, λ = 0.71073 Å |
a = 10.7669 (1) Å | Cell parameters from 9265 reflections |
b = 12.8159 (2) Å | θ = 2.4–35.3° |
c = 20.7167 (2) Å | µ = 2.77 mm−1 |
α = 95.997 (1)° | T = 100 K |
β = 101.259 (1)° | Block, purple |
γ = 103.451 (1)° | 0.32 × 0.25 × 0.18 mm |
V = 2692.85 (6) Å3 |
Bruker SMART APEXII CCD area-detector diffractometer | 19440 independent reflections |
Radiation source: fine-focus sealed tube | 17122 reflections with I > 2σ(I) |
Graphite monochromator | Rint = 0.025 |
φ and ω scans | θmax = 32.5°, θmin = 2.0° |
Absorption correction: multi-scan (SADABS; Bruker, 2005) | h = −16→16 |
Tmin = 0.472, Tmax = 0.631 | k = −19→19 |
90976 measured reflections | l = −31→31 |
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)] = 0.021 | Hydrogen site location: inferred from neighbouring sites |
wR(F2) = 0.052 | H-atom parameters constrained |
S = 1.01 | w = 1/[σ2(Fo2) + (0.0223P)2 + 2.0523P] where P = (Fo2 + 2Fc2)/3 |
19440 reflections | (Δ/σ)max = 0.002 |
679 parameters | Δρmax = 0.73 e Å−3 |
0 restraints | Δρmin = −1.73 e Å−3 |
2[Ru3(C25H22As2)(C21H21As)(CO)9]·CH2Cl2 | γ = 103.451 (1)° |
Mr = 2932.65 | V = 2692.85 (6) Å3 |
Triclinic, P1 | Z = 1 |
a = 10.7669 (1) Å | Mo Kα radiation |
b = 12.8159 (2) Å | µ = 2.77 mm−1 |
c = 20.7167 (2) Å | T = 100 K |
α = 95.997 (1)° | 0.32 × 0.25 × 0.18 mm |
β = 101.259 (1)° |
Bruker SMART APEXII CCD area-detector diffractometer | 19440 independent reflections |
Absorption correction: multi-scan (SADABS; Bruker, 2005) | 17122 reflections with I > 2σ(I) |
Tmin = 0.472, Tmax = 0.631 | Rint = 0.025 |
90976 measured reflections |
R[F2 > 2σ(F2)] = 0.021 | 0 restraints |
wR(F2) = 0.052 | H-atom parameters constrained |
S = 1.01 | Δρmax = 0.73 e Å−3 |
19440 reflections | Δρmin = −1.73 e Å−3 |
679 parameters |
Experimental. The crystal was placed in the cold stream of an Oxford Cyrosystems Cobra open-flow nitrogen cryostat (Cosier & Glazer, 1986) operating at 100.0 (1) K. |
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 | Occ. (<1) | |
Ru1 | 0.748217 (11) | 0.570966 (9) | 0.225464 (6) | 0.01353 (2) | |
Ru2 | 0.923559 (11) | 0.508430 (9) | 0.327473 (5) | 0.01269 (2) | |
Ru3 | 0.691165 (11) | 0.354235 (9) | 0.257861 (6) | 0.01359 (2) | |
As1 | 0.850968 (14) | 0.763617 (12) | 0.262954 (7) | 0.01454 (3) | |
As2 | 1.092347 (14) | 0.673703 (12) | 0.332126 (7) | 0.01360 (3) | |
As3 | 0.464318 (14) | 0.251824 (12) | 0.208703 (7) | 0.01442 (3) | |
O1 | 0.53976 (12) | 0.57997 (11) | 0.30693 (7) | 0.0276 (3) | |
O2 | 0.57004 (12) | 0.59551 (11) | 0.09838 (6) | 0.0274 (3) | |
O3 | 0.95014 (12) | 0.53629 (10) | 0.14399 (6) | 0.0227 (2) | |
O4 | 1.02873 (12) | 0.36228 (10) | 0.23643 (6) | 0.0255 (2) | |
O5 | 1.03705 (14) | 0.40670 (12) | 0.44375 (7) | 0.0312 (3) | |
O6 | 0.80068 (12) | 0.63916 (10) | 0.41856 (6) | 0.0243 (2) | |
O7 | 0.60368 (13) | 0.40703 (10) | 0.38771 (6) | 0.0254 (2) | |
O8 | 0.80348 (14) | 0.17286 (11) | 0.30517 (7) | 0.0299 (3) | |
O9 | 0.76267 (13) | 0.31181 (11) | 0.12285 (6) | 0.0281 (3) | |
O10 | 0.09041 (12) | 0.38956 (11) | −0.00395 (6) | 0.0268 (3) | |
O11 | 0.38176 (14) | −0.16804 (10) | 0.01920 (6) | 0.0294 (3) | |
O12 | 0.15856 (13) | 0.08073 (10) | 0.41159 (6) | 0.0268 (3) | |
C1 | 0.89112 (15) | 0.85813 (13) | 0.19751 (8) | 0.0192 (3) | |
C2 | 0.92364 (18) | 0.97072 (14) | 0.21647 (10) | 0.0271 (3) | |
H2A | 0.9295 | 1.0002 | 0.2603 | 0.033* | |
C3 | 0.9473 (2) | 1.03876 (15) | 0.16951 (11) | 0.0341 (4) | |
H3A | 0.9688 | 1.1137 | 0.1820 | 0.041* | |
C4 | 0.9387 (2) | 0.99484 (17) | 0.10422 (10) | 0.0345 (4) | |
H4A | 0.9549 | 1.0405 | 0.0731 | 0.041* | |
C5 | 0.9062 (2) | 0.88321 (16) | 0.08523 (10) | 0.0321 (4) | |
H5A | 0.9003 | 0.8542 | 0.0413 | 0.038* | |
C6 | 0.88232 (17) | 0.81427 (14) | 0.13187 (8) | 0.0243 (3) | |
H6A | 0.8606 | 0.7393 | 0.1191 | 0.029* | |
C7 | 0.75040 (15) | 0.84464 (12) | 0.30631 (8) | 0.0180 (3) | |
C8 | 0.80015 (17) | 0.91164 (14) | 0.36772 (9) | 0.0246 (3) | |
H8A | 0.8858 | 0.9186 | 0.3906 | 0.029* | |
C9 | 0.72189 (19) | 0.96824 (16) | 0.39495 (10) | 0.0296 (4) | |
H9A | 0.7549 | 1.0124 | 0.4362 | 0.036* | |
C10 | 0.59524 (18) | 0.95882 (15) | 0.36063 (11) | 0.0300 (4) | |
H10A | 0.5431 | 0.9968 | 0.3788 | 0.036* | |
C11 | 0.54584 (17) | 0.89312 (15) | 0.29933 (11) | 0.0300 (4) | |
H11A | 0.4607 | 0.8874 | 0.2762 | 0.036* | |
C12 | 0.62267 (16) | 0.83559 (14) | 0.27205 (9) | 0.0245 (3) | |
H12A | 0.5888 | 0.7910 | 0.2309 | 0.029* | |
C13 | 1.01597 (14) | 0.79804 (12) | 0.33037 (8) | 0.0175 (3) | |
H13A | 1.0774 | 0.8594 | 0.3206 | 0.021* | |
H13B | 1.0000 | 0.8183 | 0.3738 | 0.021* | |
C14 | 1.22911 (15) | 0.72635 (12) | 0.41276 (7) | 0.0174 (3) | |
C15 | 1.19085 (17) | 0.72494 (14) | 0.47329 (8) | 0.0230 (3) | |
H15A | 1.1029 | 0.6990 | 0.4738 | 0.028* | |
C16 | 1.28408 (19) | 0.76219 (15) | 0.53279 (8) | 0.0281 (4) | |
H16A | 1.2584 | 0.7620 | 0.5731 | 0.034* | |
C17 | 1.41483 (19) | 0.79953 (16) | 0.53228 (9) | 0.0314 (4) | |
H17A | 1.4773 | 0.8230 | 0.5723 | 0.038* | |
C18 | 1.45289 (19) | 0.80199 (18) | 0.47264 (10) | 0.0360 (4) | |
H18A | 1.5409 | 0.8284 | 0.4725 | 0.043* | |
C19 | 1.36012 (17) | 0.76501 (16) | 0.41236 (9) | 0.0284 (4) | |
H19A | 1.3862 | 0.7663 | 0.3722 | 0.034* | |
C20 | 1.18625 (14) | 0.68358 (13) | 0.26161 (7) | 0.0171 (3) | |
C21 | 1.24764 (15) | 0.60231 (13) | 0.24738 (8) | 0.0204 (3) | |
H21A | 1.2484 | 0.5479 | 0.2737 | 0.024* | |
C22 | 1.30791 (16) | 0.60245 (15) | 0.19368 (8) | 0.0245 (3) | |
H22A | 1.3482 | 0.5478 | 0.1840 | 0.029* | |
C23 | 1.30788 (17) | 0.68386 (17) | 0.15467 (8) | 0.0278 (4) | |
H23A | 1.3481 | 0.6838 | 0.1188 | 0.033* | |
C24 | 1.24798 (17) | 0.76539 (16) | 0.16906 (9) | 0.0278 (4) | |
H24A | 1.2486 | 0.8202 | 0.1429 | 0.033* | |
C25 | 1.18693 (15) | 0.76580 (14) | 0.22238 (8) | 0.0211 (3) | |
H25A | 1.1467 | 0.8206 | 0.2318 | 0.025* | |
C26 | 0.34264 (14) | 0.31040 (12) | 0.15043 (7) | 0.0162 (3) | |
C27 | 0.38765 (15) | 0.36185 (12) | 0.10008 (8) | 0.0188 (3) | |
H27A | 0.4766 | 0.3785 | 0.1005 | 0.023* | |
C28 | 0.30132 (17) | 0.38827 (14) | 0.04953 (8) | 0.0218 (3) | |
H28A | 0.3323 | 0.4222 | 0.0161 | 0.026* | |
C29 | 0.16790 (16) | 0.36393 (13) | 0.04880 (8) | 0.0198 (3) | |
C30 | 0.12182 (16) | 0.31616 (13) | 0.10001 (8) | 0.0204 (3) | |
H30A | 0.0334 | 0.3024 | 0.1007 | 0.024* | |
C31 | 0.20998 (15) | 0.28927 (13) | 0.15017 (8) | 0.0191 (3) | |
H31A | 0.1795 | 0.2566 | 0.1841 | 0.023* | |
C32 | 0.44377 (15) | 0.11738 (12) | 0.14984 (7) | 0.0172 (3) | |
C33 | 0.32017 (16) | 0.06402 (13) | 0.10922 (8) | 0.0212 (3) | |
H33A | 0.2486 | 0.0921 | 0.1116 | 0.025* | |
C34 | 0.30393 (18) | −0.02992 (13) | 0.06566 (9) | 0.0248 (3) | |
H34A | 0.2217 | −0.0646 | 0.0387 | 0.030* | |
C35 | 0.41039 (18) | −0.07291 (13) | 0.06199 (8) | 0.0218 (3) | |
C36 | 0.53369 (17) | −0.02054 (13) | 0.10135 (8) | 0.0229 (3) | |
H36A | 0.6053 | −0.0484 | 0.0987 | 0.027* | |
C37 | 0.54874 (16) | 0.07457 (13) | 0.14493 (8) | 0.0215 (3) | |
H37A | 0.6313 | 0.1099 | 0.1713 | 0.026* | |
C38 | 0.36401 (14) | 0.20005 (12) | 0.27262 (7) | 0.0162 (3) | |
C39 | 0.31161 (16) | 0.26948 (13) | 0.30952 (8) | 0.0206 (3) | |
H39A | 0.3242 | 0.3416 | 0.3030 | 0.025* | |
C40 | 0.24104 (17) | 0.23255 (13) | 0.35581 (8) | 0.0222 (3) | |
H40A | 0.2043 | 0.2790 | 0.3790 | 0.027* | |
C41 | 0.22564 (15) | 0.12585 (13) | 0.36729 (8) | 0.0195 (3) | |
C42 | 0.28230 (15) | 0.05689 (13) | 0.33270 (8) | 0.0195 (3) | |
H42A | 0.2754 | −0.0136 | 0.3417 | 0.023* | |
C43 | 0.34871 (15) | 0.09347 (12) | 0.28500 (8) | 0.0180 (3) | |
H43A | 0.3834 | 0.0464 | 0.2610 | 0.022* | |
C44 | 0.61826 (15) | 0.57114 (13) | 0.27824 (8) | 0.0195 (3) | |
C45 | 0.63364 (15) | 0.58388 (13) | 0.14722 (8) | 0.0191 (3) | |
C46 | 0.87797 (15) | 0.54744 (12) | 0.17636 (7) | 0.0184 (3) | |
C47 | 0.98557 (14) | 0.41806 (13) | 0.26738 (8) | 0.0180 (3) | |
C48 | 0.99577 (15) | 0.44521 (13) | 0.39973 (8) | 0.0193 (3) | |
C49 | 0.84055 (14) | 0.58853 (12) | 0.38269 (7) | 0.0173 (3) | |
C50 | 0.64039 (15) | 0.39241 (12) | 0.34029 (8) | 0.0191 (3) | |
C51 | 0.75530 (16) | 0.23904 (13) | 0.28797 (8) | 0.0200 (3) | |
C52 | 0.73926 (15) | 0.33497 (13) | 0.17343 (8) | 0.0198 (3) | |
C53 | −0.04799 (18) | 0.36350 (16) | −0.00756 (9) | 0.0295 (4) | |
H53A | −0.0915 | 0.3866 | −0.0464 | 0.044* | |
H53B | −0.0643 | 0.4001 | 0.0316 | 0.044* | |
H53C | −0.0807 | 0.2864 | −0.0102 | 0.044* | |
C54 | 0.4875 (2) | −0.21280 (16) | 0.01151 (10) | 0.0334 (4) | |
H54A | 0.4543 | −0.2822 | −0.0167 | 0.050* | |
H54B | 0.5335 | −0.2216 | 0.0544 | 0.050* | |
H54C | 0.5463 | −0.1649 | −0.0084 | 0.050* | |
C55 | 0.0980 (2) | 0.14896 (17) | 0.44722 (10) | 0.0350 (4) | |
H55A | 0.0518 | 0.1084 | 0.4756 | 0.052* | |
H55B | 0.0375 | 0.1742 | 0.4161 | 0.052* | |
H55C | 0.1641 | 0.2101 | 0.4738 | 0.052* | |
Cl1 | 0.62312 (7) | 0.49780 (6) | 0.54517 (3) | 0.05626 (16) | |
C56 | 0.5351 (4) | 0.5640 (3) | 0.4957 (2) | 0.0337 (8) | 0.50 |
H56A | 0.5828 | 0.5856 | 0.4626 | 0.040* | 0.50 |
H56B | 0.5342 | 0.6294 | 0.5225 | 0.040* | 0.50 |
U11 | U22 | U33 | U12 | U13 | U23 | |
Ru1 | 0.01293 (5) | 0.01240 (5) | 0.01399 (5) | 0.00233 (4) | 0.00091 (4) | 0.00267 (4) |
Ru2 | 0.01146 (5) | 0.01378 (5) | 0.01296 (5) | 0.00336 (4) | 0.00268 (3) | 0.00265 (4) |
Ru3 | 0.01337 (5) | 0.01205 (5) | 0.01495 (5) | 0.00242 (4) | 0.00324 (4) | 0.00227 (4) |
As1 | 0.01342 (6) | 0.01264 (6) | 0.01655 (7) | 0.00272 (5) | 0.00162 (5) | 0.00260 (5) |
As2 | 0.01158 (6) | 0.01491 (6) | 0.01367 (6) | 0.00274 (5) | 0.00211 (5) | 0.00245 (5) |
As3 | 0.01369 (6) | 0.01293 (6) | 0.01654 (7) | 0.00316 (5) | 0.00390 (5) | 0.00164 (5) |
O1 | 0.0234 (6) | 0.0346 (7) | 0.0321 (7) | 0.0141 (5) | 0.0114 (5) | 0.0130 (5) |
O2 | 0.0247 (6) | 0.0316 (7) | 0.0235 (6) | 0.0055 (5) | −0.0014 (5) | 0.0109 (5) |
O3 | 0.0221 (5) | 0.0258 (6) | 0.0201 (5) | 0.0050 (4) | 0.0060 (4) | 0.0041 (4) |
O4 | 0.0235 (6) | 0.0281 (6) | 0.0275 (6) | 0.0106 (5) | 0.0093 (5) | −0.0001 (5) |
O5 | 0.0327 (7) | 0.0376 (7) | 0.0278 (6) | 0.0150 (6) | 0.0047 (5) | 0.0159 (6) |
O6 | 0.0228 (6) | 0.0276 (6) | 0.0225 (6) | 0.0088 (5) | 0.0061 (4) | −0.0021 (5) |
O7 | 0.0303 (6) | 0.0244 (6) | 0.0229 (6) | 0.0057 (5) | 0.0108 (5) | 0.0035 (5) |
O8 | 0.0374 (7) | 0.0268 (6) | 0.0316 (7) | 0.0172 (6) | 0.0086 (5) | 0.0103 (5) |
O9 | 0.0308 (7) | 0.0271 (6) | 0.0225 (6) | −0.0012 (5) | 0.0106 (5) | −0.0023 (5) |
O10 | 0.0256 (6) | 0.0345 (7) | 0.0203 (6) | 0.0103 (5) | 0.0006 (4) | 0.0072 (5) |
O11 | 0.0428 (8) | 0.0188 (6) | 0.0239 (6) | 0.0087 (5) | 0.0048 (5) | −0.0046 (5) |
O12 | 0.0318 (7) | 0.0243 (6) | 0.0263 (6) | 0.0031 (5) | 0.0150 (5) | 0.0061 (5) |
C1 | 0.0158 (6) | 0.0177 (7) | 0.0235 (7) | 0.0025 (5) | 0.0033 (5) | 0.0072 (5) |
C2 | 0.0295 (9) | 0.0183 (7) | 0.0322 (9) | 0.0021 (6) | 0.0073 (7) | 0.0064 (6) |
C3 | 0.0380 (10) | 0.0196 (8) | 0.0442 (11) | 0.0012 (7) | 0.0114 (8) | 0.0132 (8) |
C4 | 0.0358 (10) | 0.0317 (10) | 0.0367 (10) | 0.0030 (8) | 0.0095 (8) | 0.0189 (8) |
C5 | 0.0375 (10) | 0.0328 (9) | 0.0252 (8) | 0.0047 (8) | 0.0072 (7) | 0.0114 (7) |
C6 | 0.0274 (8) | 0.0214 (7) | 0.0233 (8) | 0.0042 (6) | 0.0048 (6) | 0.0065 (6) |
C7 | 0.0169 (6) | 0.0143 (6) | 0.0240 (7) | 0.0051 (5) | 0.0050 (5) | 0.0048 (5) |
C8 | 0.0224 (7) | 0.0255 (8) | 0.0258 (8) | 0.0112 (6) | 0.0017 (6) | −0.0004 (6) |
C9 | 0.0305 (9) | 0.0294 (9) | 0.0307 (9) | 0.0142 (7) | 0.0067 (7) | −0.0019 (7) |
C10 | 0.0249 (8) | 0.0229 (8) | 0.0472 (11) | 0.0118 (7) | 0.0132 (8) | 0.0055 (7) |
C11 | 0.0181 (7) | 0.0226 (8) | 0.0485 (11) | 0.0078 (6) | 0.0035 (7) | 0.0034 (7) |
C12 | 0.0183 (7) | 0.0205 (7) | 0.0322 (9) | 0.0056 (6) | 0.0009 (6) | 0.0006 (6) |
C13 | 0.0147 (6) | 0.0159 (6) | 0.0197 (7) | 0.0035 (5) | 0.0006 (5) | 0.0007 (5) |
C14 | 0.0170 (6) | 0.0171 (6) | 0.0155 (6) | 0.0022 (5) | 0.0002 (5) | 0.0026 (5) |
C15 | 0.0219 (7) | 0.0282 (8) | 0.0188 (7) | 0.0084 (6) | 0.0028 (6) | 0.0020 (6) |
C16 | 0.0344 (9) | 0.0320 (9) | 0.0165 (7) | 0.0123 (7) | 0.0002 (6) | −0.0002 (6) |
C17 | 0.0315 (9) | 0.0297 (9) | 0.0232 (8) | 0.0036 (7) | −0.0087 (7) | −0.0015 (7) |
C18 | 0.0201 (8) | 0.0460 (12) | 0.0313 (9) | −0.0044 (8) | −0.0041 (7) | 0.0080 (8) |
C19 | 0.0177 (7) | 0.0407 (10) | 0.0216 (8) | −0.0009 (7) | 0.0007 (6) | 0.0078 (7) |
C20 | 0.0135 (6) | 0.0206 (7) | 0.0157 (6) | 0.0019 (5) | 0.0032 (5) | 0.0026 (5) |
C21 | 0.0172 (7) | 0.0237 (7) | 0.0214 (7) | 0.0059 (6) | 0.0058 (5) | 0.0047 (6) |
C22 | 0.0177 (7) | 0.0325 (9) | 0.0221 (7) | 0.0054 (6) | 0.0058 (6) | −0.0013 (6) |
C23 | 0.0188 (7) | 0.0452 (11) | 0.0180 (7) | 0.0040 (7) | 0.0058 (6) | 0.0052 (7) |
C24 | 0.0234 (8) | 0.0380 (10) | 0.0228 (8) | 0.0043 (7) | 0.0065 (6) | 0.0143 (7) |
C25 | 0.0172 (7) | 0.0246 (8) | 0.0209 (7) | 0.0031 (6) | 0.0038 (5) | 0.0070 (6) |
C26 | 0.0170 (6) | 0.0151 (6) | 0.0166 (6) | 0.0044 (5) | 0.0041 (5) | 0.0019 (5) |
C27 | 0.0181 (7) | 0.0183 (7) | 0.0201 (7) | 0.0037 (5) | 0.0065 (5) | 0.0022 (5) |
C28 | 0.0249 (8) | 0.0239 (7) | 0.0177 (7) | 0.0057 (6) | 0.0072 (6) | 0.0046 (6) |
C29 | 0.0225 (7) | 0.0201 (7) | 0.0164 (6) | 0.0073 (6) | 0.0018 (5) | 0.0017 (5) |
C30 | 0.0175 (7) | 0.0232 (7) | 0.0213 (7) | 0.0069 (6) | 0.0042 (5) | 0.0038 (6) |
C31 | 0.0185 (7) | 0.0204 (7) | 0.0204 (7) | 0.0064 (5) | 0.0065 (5) | 0.0060 (5) |
C32 | 0.0188 (6) | 0.0150 (6) | 0.0174 (6) | 0.0036 (5) | 0.0049 (5) | 0.0016 (5) |
C33 | 0.0202 (7) | 0.0173 (7) | 0.0240 (7) | 0.0049 (5) | 0.0011 (6) | 0.0009 (6) |
C34 | 0.0260 (8) | 0.0183 (7) | 0.0250 (8) | 0.0038 (6) | −0.0021 (6) | 0.0008 (6) |
C35 | 0.0322 (8) | 0.0149 (6) | 0.0182 (7) | 0.0047 (6) | 0.0073 (6) | 0.0020 (5) |
C36 | 0.0257 (8) | 0.0190 (7) | 0.0256 (8) | 0.0066 (6) | 0.0101 (6) | 0.0014 (6) |
C37 | 0.0193 (7) | 0.0190 (7) | 0.0251 (7) | 0.0042 (5) | 0.0059 (6) | −0.0008 (6) |
C38 | 0.0151 (6) | 0.0154 (6) | 0.0172 (6) | 0.0026 (5) | 0.0036 (5) | 0.0021 (5) |
C39 | 0.0238 (7) | 0.0158 (6) | 0.0234 (7) | 0.0048 (5) | 0.0087 (6) | 0.0041 (5) |
C40 | 0.0251 (8) | 0.0204 (7) | 0.0225 (7) | 0.0062 (6) | 0.0091 (6) | 0.0023 (6) |
C41 | 0.0177 (7) | 0.0203 (7) | 0.0186 (7) | 0.0002 (5) | 0.0051 (5) | 0.0031 (5) |
C42 | 0.0194 (7) | 0.0156 (6) | 0.0219 (7) | 0.0017 (5) | 0.0038 (5) | 0.0036 (5) |
C43 | 0.0164 (6) | 0.0161 (6) | 0.0211 (7) | 0.0040 (5) | 0.0038 (5) | 0.0031 (5) |
C44 | 0.0171 (6) | 0.0201 (7) | 0.0210 (7) | 0.0053 (5) | 0.0013 (5) | 0.0074 (5) |
C45 | 0.0180 (7) | 0.0176 (7) | 0.0208 (7) | 0.0032 (5) | 0.0033 (5) | 0.0042 (5) |
C46 | 0.0192 (7) | 0.0166 (6) | 0.0171 (6) | 0.0026 (5) | 0.0005 (5) | 0.0037 (5) |
C47 | 0.0151 (6) | 0.0191 (7) | 0.0194 (7) | 0.0042 (5) | 0.0029 (5) | 0.0036 (5) |
C48 | 0.0180 (7) | 0.0205 (7) | 0.0199 (7) | 0.0049 (5) | 0.0052 (5) | 0.0042 (5) |
C49 | 0.0150 (6) | 0.0183 (7) | 0.0169 (6) | 0.0023 (5) | 0.0019 (5) | 0.0032 (5) |
C50 | 0.0203 (7) | 0.0143 (6) | 0.0216 (7) | 0.0033 (5) | 0.0035 (5) | 0.0032 (5) |
C51 | 0.0214 (7) | 0.0198 (7) | 0.0193 (7) | 0.0048 (6) | 0.0061 (5) | 0.0031 (5) |
C52 | 0.0165 (6) | 0.0188 (7) | 0.0209 (7) | 0.0003 (5) | 0.0031 (5) | 0.0018 (5) |
C53 | 0.0239 (8) | 0.0348 (9) | 0.0262 (8) | 0.0080 (7) | −0.0030 (6) | 0.0049 (7) |
C54 | 0.0530 (12) | 0.0236 (8) | 0.0268 (9) | 0.0149 (8) | 0.0134 (8) | −0.0011 (7) |
C55 | 0.0458 (11) | 0.0329 (10) | 0.0303 (9) | 0.0063 (8) | 0.0239 (8) | 0.0037 (8) |
Cl1 | 0.0548 (4) | 0.0621 (4) | 0.0490 (3) | 0.0249 (3) | 0.0048 (3) | −0.0132 (3) |
C56 | 0.035 (2) | 0.0289 (18) | 0.039 (2) | 0.0057 (15) | 0.0161 (16) | 0.0012 (16) |
Ru1—C45 | 1.8834 (16) | C15—C16 | 1.388 (2) |
Ru1—C44 | 1.9369 (16) | C15—H15A | 0.9300 |
Ru1—C46 | 1.9402 (16) | C16—C17 | 1.380 (3) |
Ru1—As1 | 2.4323 (2) | C16—H16A | 0.9300 |
Ru1—Ru2 | 2.8587 (2) | C17—C18 | 1.377 (3) |
Ru1—Ru3 | 2.8809 (2) | C17—H17A | 0.9300 |
Ru2—C48 | 1.8958 (16) | C18—C19 | 1.397 (2) |
Ru2—C47 | 1.9288 (16) | C18—H18A | 0.9300 |
Ru2—C49 | 1.9344 (15) | C19—H19A | 0.9300 |
Ru2—As2 | 2.4283 (2) | C20—C21 | 1.393 (2) |
Ru2—Ru3 | 2.8180 (2) | C20—C25 | 1.396 (2) |
Ru3—C51 | 1.8825 (16) | C21—C22 | 1.393 (2) |
Ru3—C52 | 1.9265 (16) | C21—H21A | 0.9300 |
Ru3—C50 | 1.9413 (16) | C22—C23 | 1.385 (3) |
Ru3—As3 | 2.4461 (2) | C22—H22A | 0.9300 |
As1—C7 | 1.9404 (15) | C23—C24 | 1.386 (3) |
As1—C1 | 1.9546 (15) | C23—H23A | 0.9300 |
As1—C13 | 1.9594 (15) | C24—C25 | 1.391 (2) |
As2—C20 | 1.9309 (15) | C24—H24A | 0.9300 |
As2—C14 | 1.9380 (15) | C25—H25A | 0.9300 |
As2—C13 | 1.9562 (15) | C26—C31 | 1.389 (2) |
As3—C26 | 1.9408 (15) | C26—C27 | 1.396 (2) |
As3—C38 | 1.9413 (14) | C27—C28 | 1.384 (2) |
As3—C32 | 1.9450 (15) | C27—H27A | 0.9300 |
O1—C44 | 1.143 (2) | C28—C29 | 1.394 (2) |
O2—C45 | 1.1502 (19) | C28—H28A | 0.9300 |
O3—C46 | 1.1442 (19) | C29—C30 | 1.395 (2) |
O4—C47 | 1.1458 (19) | C30—C31 | 1.393 (2) |
O5—C48 | 1.145 (2) | C30—H30A | 0.9300 |
O6—C49 | 1.1449 (19) | C31—H31A | 0.9300 |
O7—C50 | 1.1419 (19) | C32—C37 | 1.382 (2) |
O8—C51 | 1.145 (2) | C32—C33 | 1.402 (2) |
O9—C52 | 1.150 (2) | C33—C34 | 1.381 (2) |
O10—C29 | 1.3582 (19) | C33—H33A | 0.9300 |
O10—C53 | 1.434 (2) | C34—C35 | 1.394 (2) |
O11—C35 | 1.3639 (19) | C34—H34A | 0.9300 |
O11—C54 | 1.416 (2) | C35—C36 | 1.388 (2) |
O12—C41 | 1.3688 (19) | C36—C37 | 1.396 (2) |
O12—C55 | 1.433 (2) | C36—H36A | 0.9300 |
C1—C6 | 1.393 (2) | C37—H37A | 0.9300 |
C1—C2 | 1.397 (2) | C38—C43 | 1.394 (2) |
C2—C3 | 1.394 (3) | C38—C39 | 1.398 (2) |
C2—H2A | 0.9300 | C39—C40 | 1.390 (2) |
C3—C4 | 1.387 (3) | C39—H39A | 0.9300 |
C3—H3A | 0.9300 | C40—C41 | 1.390 (2) |
C4—C5 | 1.385 (3) | C40—H40A | 0.9300 |
C4—H4A | 0.9300 | C41—C42 | 1.399 (2) |
C5—C6 | 1.396 (2) | C42—C43 | 1.387 (2) |
C5—H5A | 0.9300 | C42—H42A | 0.9300 |
C6—H6A | 0.9300 | C43—H43A | 0.9300 |
C7—C8 | 1.391 (2) | C53—H53A | 0.9600 |
C7—C12 | 1.391 (2) | C53—H53B | 0.9600 |
C8—C9 | 1.392 (2) | C53—H53C | 0.9600 |
C8—H8A | 0.9300 | C54—H54A | 0.9600 |
C9—C10 | 1.381 (3) | C54—H54B | 0.9600 |
C9—H9A | 0.9300 | C54—H54C | 0.9600 |
C10—C11 | 1.382 (3) | C55—H55A | 0.9600 |
C10—H10A | 0.9300 | C55—H55B | 0.9600 |
C11—C12 | 1.388 (2) | C55—H55C | 0.9600 |
C11—H11A | 0.9300 | Cl1—C56 | 1.687 (4) |
C12—H12A | 0.9300 | Cl1—C56i | 1.707 (4) |
C13—H13A | 0.9700 | C56—C56i | 1.682 (8) |
C13—H13B | 0.9700 | C56—Cl1i | 1.707 (4) |
C14—C19 | 1.384 (2) | C56—H56A | 0.9601 |
C14—C15 | 1.395 (2) | C56—H56B | 0.9599 |
C45—Ru1—C44 | 92.98 (7) | C18—C17—H17A | 120.0 |
C45—Ru1—C46 | 91.58 (7) | C16—C17—H17A | 120.0 |
C44—Ru1—C46 | 170.65 (6) | C17—C18—C19 | 120.41 (18) |
C45—Ru1—As1 | 97.62 (5) | C17—C18—H18A | 119.8 |
C44—Ru1—As1 | 92.39 (5) | C19—C18—H18A | 119.8 |
C46—Ru1—As1 | 95.09 (4) | C14—C19—C18 | 119.64 (17) |
C45—Ru1—Ru2 | 167.46 (5) | C14—C19—H19A | 120.2 |
C44—Ru1—Ru2 | 93.41 (4) | C18—C19—H19A | 120.2 |
C46—Ru1—Ru2 | 80.64 (4) | C21—C20—C25 | 119.72 (14) |
As1—Ru1—Ru2 | 92.883 (6) | C21—C20—As2 | 118.52 (11) |
C45—Ru1—Ru3 | 112.52 (5) | C25—C20—As2 | 121.64 (12) |
C44—Ru1—Ru3 | 76.37 (5) | C22—C21—C20 | 120.06 (15) |
C46—Ru1—Ru3 | 94.34 (4) | C22—C21—H21A | 120.0 |
As1—Ru1—Ru3 | 148.088 (6) | C20—C21—H21A | 120.0 |
Ru2—Ru1—Ru3 | 58.806 (4) | C23—C22—C21 | 120.08 (16) |
C48—Ru2—C47 | 90.02 (7) | C23—C22—H22A | 120.0 |
C48—Ru2—C49 | 92.26 (6) | C21—C22—H22A | 120.0 |
C47—Ru2—C49 | 173.16 (6) | C22—C23—C24 | 120.02 (15) |
C48—Ru2—As2 | 103.42 (5) | C22—C23—H23A | 120.0 |
C47—Ru2—As2 | 95.92 (5) | C24—C23—H23A | 120.0 |
C49—Ru2—As2 | 89.82 (4) | C23—C24—C25 | 120.41 (16) |
C48—Ru2—Ru3 | 106.08 (5) | C23—C24—H24A | 119.8 |
C47—Ru2—Ru3 | 77.30 (4) | C25—C24—H24A | 119.8 |
C49—Ru2—Ru3 | 95.87 (4) | C24—C25—C20 | 119.71 (16) |
As2—Ru2—Ru3 | 149.666 (6) | C24—C25—H25A | 120.1 |
C48—Ru2—Ru1 | 164.14 (5) | C20—C25—H25A | 120.1 |
C47—Ru2—Ru1 | 95.47 (4) | C31—C26—C27 | 118.82 (14) |
C49—Ru2—Ru1 | 80.70 (4) | C31—C26—As3 | 123.03 (11) |
As2—Ru2—Ru1 | 90.831 (6) | C27—C26—As3 | 117.42 (11) |
Ru3—Ru2—Ru1 | 60.990 (4) | C28—C27—C26 | 120.76 (14) |
C51—Ru3—C52 | 93.67 (7) | C28—C27—H27A | 119.6 |
C51—Ru3—C50 | 93.66 (7) | C26—C27—H27A | 119.6 |
C52—Ru3—C50 | 172.38 (7) | C27—C28—C29 | 119.88 (15) |
C51—Ru3—As3 | 98.10 (5) | C27—C28—H28A | 120.1 |
C52—Ru3—As3 | 91.69 (5) | C29—C28—H28A | 120.1 |
C50—Ru3—As3 | 89.31 (5) | O10—C29—C28 | 115.59 (14) |
C51—Ru3—Ru2 | 91.66 (5) | O10—C29—C30 | 124.26 (15) |
C52—Ru3—Ru2 | 97.43 (4) | C28—C29—C30 | 120.15 (14) |
C50—Ru3—Ru2 | 80.30 (5) | C31—C30—C29 | 119.14 (14) |
As3—Ru3—Ru2 | 166.195 (7) | C31—C30—H30A | 120.4 |
C51—Ru3—Ru1 | 148.00 (5) | C29—C30—H30A | 120.4 |
C52—Ru3—Ru1 | 76.72 (5) | C26—C31—C30 | 121.20 (14) |
C50—Ru3—Ru1 | 95.92 (4) | C26—C31—H31A | 119.4 |
As3—Ru3—Ru1 | 112.451 (6) | C30—C31—H31A | 119.4 |
Ru2—Ru3—Ru1 | 60.204 (4) | C37—C32—C33 | 118.66 (14) |
C7—As1—C1 | 98.44 (7) | C37—C32—As3 | 121.90 (12) |
C7—As1—C13 | 101.20 (6) | C33—C32—As3 | 119.40 (11) |
C1—As1—C13 | 103.56 (6) | C34—C33—C32 | 120.45 (15) |
C7—As1—Ru1 | 116.04 (4) | C34—C33—H33A | 119.8 |
C1—As1—Ru1 | 119.41 (5) | C32—C33—H33A | 119.8 |
C13—As1—Ru1 | 115.32 (4) | C33—C34—C35 | 120.18 (16) |
C20—As2—C14 | 103.87 (6) | C33—C34—H34A | 119.9 |
C20—As2—C13 | 103.95 (7) | C35—C34—H34A | 119.9 |
C14—As2—C13 | 99.26 (6) | O11—C35—C36 | 124.82 (16) |
C20—As2—Ru2 | 118.46 (5) | O11—C35—C34 | 115.04 (15) |
C14—As2—Ru2 | 118.68 (4) | C36—C35—C34 | 120.13 (15) |
C13—As2—Ru2 | 110.06 (4) | C35—C36—C37 | 119.06 (15) |
C26—As3—C38 | 102.24 (6) | C35—C36—H36A | 120.5 |
C26—As3—C32 | 97.67 (6) | C37—C36—H36A | 120.5 |
C38—As3—C32 | 101.39 (6) | C32—C37—C36 | 121.52 (15) |
C26—As3—Ru3 | 122.47 (4) | C32—C37—H37A | 119.2 |
C38—As3—Ru3 | 114.66 (4) | C36—C37—H37A | 119.2 |
C32—As3—Ru3 | 115.14 (5) | C43—C38—C39 | 118.62 (14) |
C29—O10—C53 | 117.47 (14) | C43—C38—As3 | 120.13 (11) |
C35—O11—C54 | 117.28 (15) | C39—C38—As3 | 121.17 (11) |
C41—O12—C55 | 116.78 (14) | C40—C39—C38 | 121.08 (14) |
C6—C1—C2 | 119.99 (15) | C40—C39—H39A | 119.5 |
C6—C1—As1 | 120.64 (12) | C38—C39—H39A | 119.5 |
C2—C1—As1 | 119.32 (13) | C41—C40—C39 | 119.66 (15) |
C3—C2—C1 | 119.77 (18) | C41—C40—H40A | 120.2 |
C3—C2—H2A | 120.1 | C39—C40—H40A | 120.2 |
C1—C2—H2A | 120.1 | O12—C41—C40 | 124.78 (15) |
C4—C3—C2 | 120.10 (18) | O12—C41—C42 | 115.45 (14) |
C4—C3—H3A | 120.0 | C40—C41—C42 | 119.76 (14) |
C2—C3—H3A | 120.0 | C43—C42—C41 | 120.07 (14) |
C5—C4—C3 | 120.27 (17) | C43—C42—H42A | 120.0 |
C5—C4—H4A | 119.9 | C41—C42—H42A | 120.0 |
C3—C4—H4A | 119.9 | C42—C43—C38 | 120.71 (14) |
C4—C5—C6 | 120.12 (18) | C42—C43—H43A | 119.6 |
C4—C5—H5A | 119.9 | C38—C43—H43A | 119.6 |
C6—C5—H5A | 119.9 | O1—C44—Ru1 | 173.41 (14) |
C1—C6—C5 | 119.75 (16) | O2—C45—Ru1 | 175.91 (14) |
C1—C6—H6A | 120.1 | O3—C46—Ru1 | 175.41 (13) |
C5—C6—H6A | 120.1 | O4—C47—Ru2 | 174.12 (14) |
C8—C7—C12 | 119.57 (15) | O5—C48—Ru2 | 178.63 (14) |
C8—C7—As1 | 123.70 (12) | O6—C49—Ru2 | 174.76 (13) |
C12—C7—As1 | 116.71 (12) | O7—C50—Ru3 | 174.62 (14) |
C7—C8—C9 | 120.07 (16) | O8—C51—Ru3 | 174.61 (15) |
C7—C8—H8A | 120.0 | O9—C52—Ru3 | 172.70 (14) |
C9—C8—H8A | 120.0 | O10—C53—H53A | 109.5 |
C10—C9—C8 | 119.99 (17) | O10—C53—H53B | 109.5 |
C10—C9—H9A | 120.0 | H53A—C53—H53B | 109.5 |
C8—C9—H9A | 120.0 | O10—C53—H53C | 109.5 |
C9—C10—C11 | 120.13 (17) | H53A—C53—H53C | 109.5 |
C9—C10—H10A | 119.9 | H53B—C53—H53C | 109.5 |
C11—C10—H10A | 119.9 | O11—C54—H54A | 109.5 |
C10—C11—C12 | 120.32 (17) | O11—C54—H54B | 109.5 |
C10—C11—H11A | 119.8 | H54A—C54—H54B | 109.5 |
C12—C11—H11A | 119.8 | O11—C54—H54C | 109.5 |
C11—C12—C7 | 119.92 (16) | H54A—C54—H54C | 109.5 |
C11—C12—H12A | 120.0 | H54B—C54—H54C | 109.5 |
C7—C12—H12A | 120.0 | O12—C55—H55A | 109.5 |
As2—C13—As1 | 111.05 (7) | O12—C55—H55B | 109.5 |
As2—C13—H13A | 109.4 | H55A—C55—H55B | 109.5 |
As1—C13—H13A | 109.4 | O12—C55—H55C | 109.5 |
As2—C13—H13B | 109.4 | H55A—C55—H55C | 109.5 |
As1—C13—H13B | 109.4 | H55B—C55—H55C | 109.5 |
H13A—C13—H13B | 108.0 | C56—Cl1—C56i | 59.4 (2) |
C19—C14—C15 | 119.75 (14) | C56i—C56—Cl1 | 60.9 (3) |
C19—C14—As2 | 123.05 (12) | C56i—C56—Cl1i | 59.7 (3) |
C15—C14—As2 | 117.19 (11) | Cl1—C56—Cl1i | 120.6 (2) |
C16—C15—C14 | 119.96 (16) | C56i—C56—H56A | 126.6 |
C16—C15—H15A | 120.0 | Cl1—C56—H56A | 107.2 |
C14—C15—H15A | 120.0 | Cl1i—C56—H56A | 107.2 |
C17—C16—C15 | 120.17 (17) | C56i—C56—H56B | 126.6 |
C17—C16—H16A | 119.9 | Cl1—C56—H56B | 107.2 |
C15—C16—H16A | 119.9 | Cl1i—C56—H56B | 107.2 |
C18—C17—C16 | 120.05 (16) | H56A—C56—H56B | 106.8 |
C45—Ru1—Ru2—C48 | −86.2 (3) | C7—As1—C1—C6 | −137.28 (14) |
C44—Ru1—Ru2—C48 | 34.25 (18) | C13—As1—C1—C6 | 118.97 (14) |
C46—Ru1—Ru2—C48 | −138.49 (18) | Ru1—As1—C1—C6 | −10.90 (15) |
As1—Ru1—Ru2—C48 | 126.82 (18) | C7—As1—C1—C2 | 40.08 (14) |
Ru3—Ru1—Ru2—C48 | −37.56 (18) | C13—As1—C1—C2 | −63.68 (14) |
C45—Ru1—Ru2—C47 | 23.5 (2) | Ru1—As1—C1—C2 | 166.45 (12) |
C44—Ru1—Ru2—C47 | 144.02 (7) | C6—C1—C2—C3 | 0.0 (3) |
C46—Ru1—Ru2—C47 | −28.72 (6) | As1—C1—C2—C3 | −177.41 (15) |
As1—Ru1—Ru2—C47 | −123.41 (5) | C1—C2—C3—C4 | −0.1 (3) |
Ru3—Ru1—Ru2—C47 | 72.21 (5) | C2—C3—C4—C5 | 0.3 (3) |
C45—Ru1—Ru2—C49 | −150.8 (2) | C3—C4—C5—C6 | −0.2 (3) |
C44—Ru1—Ru2—C49 | −30.26 (7) | C2—C1—C6—C5 | 0.0 (3) |
C46—Ru1—Ru2—C49 | 157.00 (6) | As1—C1—C6—C5 | 177.38 (14) |
As1—Ru1—Ru2—C49 | 62.30 (4) | C4—C5—C6—C1 | 0.1 (3) |
Ru3—Ru1—Ru2—C49 | −102.08 (4) | C1—As1—C7—C8 | −102.24 (14) |
C45—Ru1—Ru2—As2 | 119.5 (2) | C13—As1—C7—C8 | 3.48 (15) |
C44—Ru1—Ru2—As2 | −119.95 (5) | Ru1—As1—C7—C8 | 129.08 (13) |
C46—Ru1—Ru2—As2 | 67.31 (5) | C1—As1—C7—C12 | 76.16 (13) |
As1—Ru1—Ru2—As2 | −27.382 (7) | C13—As1—C7—C12 | −178.11 (13) |
Ru3—Ru1—Ru2—As2 | 168.231 (6) | Ru1—As1—C7—C12 | −52.52 (13) |
C45—Ru1—Ru2—Ru3 | −48.7 (2) | C12—C7—C8—C9 | 0.7 (3) |
C44—Ru1—Ru2—Ru3 | 71.82 (5) | As1—C7—C8—C9 | 179.07 (14) |
C46—Ru1—Ru2—Ru3 | −100.92 (5) | C7—C8—C9—C10 | −0.7 (3) |
As1—Ru1—Ru2—Ru3 | 164.387 (6) | C8—C9—C10—C11 | 0.1 (3) |
C48—Ru2—Ru3—C51 | −26.04 (7) | C9—C10—C11—C12 | 0.5 (3) |
C47—Ru2—Ru3—C51 | 60.26 (7) | C10—C11—C12—C7 | −0.5 (3) |
C49—Ru2—Ru3—C51 | −120.10 (6) | C8—C7—C12—C11 | −0.1 (3) |
As2—Ru2—Ru3—C51 | 140.13 (5) | As1—C7—C12—C11 | −178.59 (14) |
Ru1—Ru2—Ru3—C51 | 163.95 (5) | C20—As2—C13—As1 | 83.43 (8) |
C48—Ru2—Ru3—C52 | −119.96 (7) | C14—As2—C13—As1 | −169.67 (8) |
C47—Ru2—Ru3—C52 | −33.67 (7) | Ru2—As2—C13—As1 | −44.41 (8) |
C49—Ru2—Ru3—C52 | 145.97 (7) | C7—As1—C13—As2 | 144.77 (8) |
As2—Ru2—Ru3—C52 | 46.21 (5) | C1—As1—C13—As2 | −113.60 (8) |
Ru1—Ru2—Ru3—C52 | 70.03 (5) | Ru1—As1—C13—As2 | 18.69 (9) |
C48—Ru2—Ru3—C50 | 67.39 (7) | C20—As2—C14—C19 | 2.79 (16) |
C47—Ru2—Ru3—C50 | 153.69 (7) | C13—As2—C14—C19 | −104.18 (15) |
C49—Ru2—Ru3—C50 | −26.67 (6) | Ru2—As2—C14—C19 | 136.78 (14) |
As2—Ru2—Ru3—C50 | −126.44 (5) | C20—As2—C14—C15 | −177.63 (12) |
Ru1—Ru2—Ru3—C50 | −102.62 (5) | C13—As2—C14—C15 | 75.40 (13) |
C48—Ru2—Ru3—As3 | 109.10 (6) | Ru2—As2—C14—C15 | −43.63 (14) |
C47—Ru2—Ru3—As3 | −164.60 (5) | C19—C14—C15—C16 | 0.0 (3) |
C49—Ru2—Ru3—As3 | 15.04 (5) | As2—C14—C15—C16 | −179.62 (13) |
As2—Ru2—Ru3—As3 | −84.73 (3) | C14—C15—C16—C17 | −0.7 (3) |
Ru1—Ru2—Ru3—As3 | −60.91 (3) | C15—C16—C17—C18 | 1.3 (3) |
C48—Ru2—Ru3—Ru1 | 170.01 (5) | C16—C17—C18—C19 | −1.2 (3) |
C47—Ru2—Ru3—Ru1 | −103.69 (5) | C15—C14—C19—C18 | 0.2 (3) |
C49—Ru2—Ru3—Ru1 | 75.95 (4) | As2—C14—C19—C18 | 179.75 (16) |
As2—Ru2—Ru3—Ru1 | −23.816 (12) | C17—C18—C19—C14 | 0.4 (3) |
C45—Ru1—Ru3—C51 | 138.41 (10) | C14—As2—C20—C21 | 79.70 (13) |
C44—Ru1—Ru3—C51 | −134.04 (10) | C13—As2—C20—C21 | −176.88 (12) |
C46—Ru1—Ru3—C51 | 44.88 (10) | Ru2—As2—C20—C21 | −54.42 (13) |
As1—Ru1—Ru3—C51 | −61.99 (9) | C14—As2—C20—C25 | −104.31 (13) |
Ru2—Ru1—Ru3—C51 | −31.43 (9) | C13—As2—C20—C25 | −0.89 (14) |
C45—Ru1—Ru3—C52 | 63.08 (7) | Ru2—As2—C20—C25 | 121.56 (12) |
C44—Ru1—Ru3—C52 | 150.64 (7) | C25—C20—C21—C22 | −0.8 (2) |
C46—Ru1—Ru3—C52 | −30.44 (7) | As2—C20—C21—C22 | 175.23 (12) |
As1—Ru1—Ru3—C52 | −137.32 (5) | C20—C21—C22—C23 | 0.5 (2) |
Ru2—Ru1—Ru3—C52 | −106.75 (5) | C21—C22—C23—C24 | 0.1 (3) |
C45—Ru1—Ru3—C50 | −114.91 (7) | C22—C23—C24—C25 | −0.4 (3) |
C44—Ru1—Ru3—C50 | −27.36 (7) | C23—C24—C25—C20 | 0.1 (3) |
C46—Ru1—Ru3—C50 | 151.56 (6) | C21—C20—C25—C24 | 0.5 (2) |
As1—Ru1—Ru3—C50 | 44.69 (5) | As2—C20—C25—C24 | −175.41 (13) |
Ru2—Ru1—Ru3—C50 | 75.25 (5) | C38—As3—C26—C31 | −14.08 (14) |
C45—Ru1—Ru3—As3 | −23.20 (5) | C32—As3—C26—C31 | 89.40 (13) |
C44—Ru1—Ru3—As3 | 64.35 (5) | Ru3—As3—C26—C31 | −144.18 (11) |
C46—Ru1—Ru3—As3 | −116.73 (4) | C38—As3—C26—C27 | 175.92 (12) |
As1—Ru1—Ru3—As3 | 136.396 (12) | C32—As3—C26—C27 | −80.60 (12) |
Ru2—Ru1—Ru3—As3 | 166.961 (7) | Ru3—As3—C26—C27 | 45.83 (13) |
C45—Ru1—Ru3—Ru2 | 169.84 (5) | C31—C26—C27—C28 | −2.1 (2) |
C44—Ru1—Ru3—Ru2 | −102.61 (5) | As3—C26—C27—C28 | 168.36 (12) |
C46—Ru1—Ru3—Ru2 | 76.31 (4) | C26—C27—C28—C29 | 0.3 (2) |
As1—Ru1—Ru3—Ru2 | −30.564 (12) | C53—O10—C29—C28 | 178.52 (15) |
C45—Ru1—As1—C7 | 78.69 (7) | C53—O10—C29—C30 | −1.3 (2) |
C44—Ru1—As1—C7 | −14.63 (7) | C27—C28—C29—O10 | −177.84 (15) |
C46—Ru1—As1—C7 | 170.98 (7) | C27—C28—C29—C30 | 2.0 (2) |
Ru2—Ru1—As1—C7 | −108.17 (5) | O10—C29—C30—C31 | 177.28 (15) |
Ru3—Ru1—As1—C7 | −82.35 (5) | C28—C29—C30—C31 | −2.6 (2) |
C45—Ru1—As1—C1 | −38.88 (7) | C27—C26—C31—C30 | 1.5 (2) |
C44—Ru1—As1—C1 | −132.21 (7) | As3—C26—C31—C30 | −168.36 (12) |
C46—Ru1—As1—C1 | 53.41 (7) | C29—C30—C31—C26 | 0.8 (2) |
Ru2—Ru1—As1—C1 | 134.26 (5) | C26—As3—C32—C37 | 141.49 (13) |
Ru3—Ru1—As1—C1 | 160.07 (5) | C38—As3—C32—C37 | −114.31 (13) |
C45—Ru1—As1—C13 | −163.25 (7) | Ru3—As3—C32—C37 | 10.07 (15) |
C44—Ru1—As1—C13 | 103.43 (7) | C26—As3—C32—C33 | −36.08 (13) |
C46—Ru1—As1—C13 | −70.96 (7) | C38—As3—C32—C33 | 68.13 (13) |
Ru2—Ru1—As1—C13 | 9.89 (5) | Ru3—As3—C32—C33 | −167.49 (11) |
Ru3—Ru1—As1—C13 | 35.71 (5) | C37—C32—C33—C34 | 0.5 (2) |
C48—Ru2—As2—C20 | 111.52 (7) | As3—C32—C33—C34 | 178.18 (13) |
C47—Ru2—As2—C20 | 20.08 (7) | C32—C33—C34—C35 | 0.4 (3) |
C49—Ru2—As2—C20 | −156.20 (7) | C54—O11—C35—C36 | −4.1 (2) |
Ru3—Ru2—As2—C20 | −54.83 (5) | C54—O11—C35—C34 | 177.41 (15) |
Ru1—Ru2—As2—C20 | −75.51 (5) | C33—C34—C35—O11 | 177.55 (15) |
C48—Ru2—As2—C14 | −15.89 (7) | C33—C34—C35—C36 | −1.0 (3) |
C47—Ru2—As2—C14 | −107.32 (7) | O11—C35—C36—C37 | −177.68 (16) |
C49—Ru2—As2—C14 | 76.40 (7) | C34—C35—C36—C37 | 0.8 (2) |
Ru3—Ru2—As2—C14 | 177.77 (5) | C33—C32—C37—C36 | −0.8 (2) |
Ru1—Ru2—As2—C14 | 157.09 (5) | As3—C32—C37—C36 | −178.41 (13) |
C48—Ru2—As2—C13 | −129.15 (7) | C35—C36—C37—C32 | 0.2 (3) |
C47—Ru2—As2—C13 | 139.41 (7) | C26—As3—C38—C43 | 127.25 (12) |
C49—Ru2—As2—C13 | −36.87 (7) | C32—As3—C38—C43 | 26.71 (13) |
Ru3—Ru2—As2—C13 | 64.51 (5) | Ru3—As3—C38—C43 | −97.99 (12) |
Ru1—Ru2—As2—C13 | 43.83 (5) | C26—As3—C38—C39 | −56.06 (14) |
C51—Ru3—As3—C26 | −166.95 (7) | C32—As3—C38—C39 | −156.61 (13) |
C52—Ru3—As3—C26 | −73.00 (7) | Ru3—As3—C38—C39 | 78.69 (13) |
C50—Ru3—As3—C26 | 99.45 (7) | C43—C38—C39—C40 | −2.5 (2) |
Ru2—Ru3—As3—C26 | 58.46 (6) | As3—C38—C39—C40 | −179.28 (13) |
Ru1—Ru3—As3—C26 | 3.32 (5) | C38—C39—C40—C41 | 2.1 (3) |
C51—Ru3—As3—C38 | 68.39 (7) | C55—O12—C41—C40 | 1.5 (2) |
C52—Ru3—As3—C38 | 162.35 (7) | C55—O12—C41—C42 | −179.25 (16) |
C50—Ru3—As3—C38 | −25.20 (7) | C39—C40—C41—O12 | 179.91 (16) |
Ru2—Ru3—As3—C38 | −66.19 (6) | C39—C40—C41—C42 | 0.6 (2) |
Ru1—Ru3—As3—C38 | −121.33 (5) | O12—C41—C42—C43 | 177.84 (14) |
C51—Ru3—As3—C32 | −48.70 (7) | C40—C41—C42—C43 | −2.8 (2) |
C52—Ru3—As3—C32 | 45.25 (7) | C41—C42—C43—C38 | 2.3 (2) |
C50—Ru3—As3—C32 | −142.30 (7) | C39—C38—C43—C42 | 0.3 (2) |
Ru2—Ru3—As3—C32 | 176.71 (5) | As3—C38—C43—C42 | 177.09 (12) |
Ru1—Ru3—As3—C32 | 121.57 (5) | C56i—Cl1—C56—Cl1i | −0.003 (2) |
Symmetry code: (i) −x+1, −y+1, −z+1. |
Cg1 Cg2 and Cg3 are the centroids of the C38–C43, C26–C31 and C32–C37 benzene rings, respectively. |
D—H···A | D—H | H···A | D···A | D—H···A |
C17—H17A···Cg1ii | 0.93 | 2.92 | 3.813 (2) | 161 |
C22—H22A···Cg2iii | 0.93 | 2.89 | 3.5863 (19) | 133 |
C54—H54C···Cg3iv | 0.96 | 2.87 | 3.710 (2) | 147 |
Symmetry codes: (ii) −x+2, −y+1, −z+1; (iii) x+1, y, z; (iv) −x+1, −y, −z. |
Experimental details
Crystal data | |
Chemical formula | 2[Ru3(C25H22As2)(C21H21As)(CO)9]·CH2Cl2 |
Mr | 2932.65 |
Crystal system, space group | Triclinic, P1 |
Temperature (K) | 100 |
a, b, c (Å) | 10.7669 (1), 12.8159 (2), 20.7167 (2) |
α, β, γ (°) | 95.997 (1), 101.259 (1), 103.451 (1) |
V (Å3) | 2692.85 (6) |
Z | 1 |
Radiation type | Mo Kα |
µ (mm−1) | 2.77 |
Crystal size (mm) | 0.32 × 0.25 × 0.18 |
Data collection | |
Diffractometer | Bruker SMART APEXII CCD area-detector diffractometer |
Absorption correction | Multi-scan (SADABS; Bruker, 2005) |
Tmin, Tmax | 0.472, 0.631 |
No. of measured, independent and observed [I > 2σ(I)] reflections | 90976, 19440, 17122 |
Rint | 0.025 |
(sin θ/λ)max (Å−1) | 0.756 |
Refinement | |
R[F2 > 2σ(F2)], wR(F2), S | 0.021, 0.052, 1.01 |
No. of reflections | 19440 |
No. of parameters | 679 |
H-atom treatment | H-atom parameters constrained |
Δρmax, Δρmin (e Å−3) | 0.73, −1.73 |
Computer programs: APEX2 (Bruker, 2005), SAINT (Bruker, 2005), SHELXTL (Sheldrick, 2008) and PLATON (Spek, 2009).
Cg1 Cg2 and Cg3 are the centroids of the C38–C43, C26–C31 and C32–C37 benzene rings, respectively. |
D—H···A | D—H | H···A | D···A | D—H···A |
C17—H17A···Cg1i | 0.93 | 2.92 | 3.813 (2) | 161 |
C22—H22A···Cg2ii | 0.93 | 2.89 | 3.5863 (19) | 133 |
C54—H54C···Cg3iii | 0.96 | 2.87 | 3.710 (2) | 147 |
Symmetry codes: (i) −x+2, −y+1, −z+1; (ii) x+1, y, z; (iii) −x+1, −y, −z. |
Acknowledgements
The authors would like to thank the Malaysian Government and Universiti Sains Malaysia (USM) for the Research grant 1001/PJJAUH/811115. IAK is grateful to USM for a Postdoctoral Fellowship and to Gokhale Centenary College, Ankola, Karnataka, India, for postdoctoral study leave. HKF thanks USM for the Research University Golden Goose grant 1001/PFIZIK/811012. CSY thanks USM for the award of a USM Fellowship.
References
Blicke, F. F. & Cataline, E. L. (1938). J. Am. Chem. Soc. 60, 419–422. CrossRef CAS Google Scholar
Bruce, M. I., Liddell, M. J., Hughes, C. A., Patrick, J. M., Skelton, B. W. & White, A. H. (1988a). J. Organomet. Chem. 347, 181–205. CSD CrossRef CAS Web of Science Google Scholar
Bruce, M. I., Liddell, M. J., Shawkataly, O. bin, Hughes, C. A., Skelton, B. W. & White, A. H. (1988b). J. Organomet. Chem. 347, 207–235. CSD CrossRef CAS Web of Science Google Scholar
Bruce, M. I., Matisons, J. G. & Nicholson, B. K. (1983). J. Organomet. Chem. 247, 321–343. CrossRef CAS Web of Science Google Scholar
Bruce, M. I., Shawkataly, O. bin. & Williams, M. L. (1985). J. Organomet. Chem. 287, 127–131. CrossRef CAS Web of Science Google Scholar
Bruker (2005). APEX2, SAINT and SADABS. Bruker AXS Inc., Madison, Wisconsin, USA. Google Scholar
Cosier, J. & Glazer, A. M. (1986). J. Appl. Cryst. 19, 105–107. CrossRef CAS Web of Science IUCr Journals Google Scholar
Shawkataly, O. bin, Khan, I. A., Yeap, C. S. & Fun, H.-K. (2009). Acta Cryst. E65, m1620–m1621. Web of Science CSD CrossRef IUCr Journals Google Scholar
Shawkataly, O. bin, Khan, I. A., Yeap, C. S. & Fun, H.-K. (2010). Acta Cryst. E66, m30–m31. Web of Science CSD CrossRef IUCr Journals Google Scholar
Shawkataly, O. bin, Ramalingam, K., Fun, H.-K., Abdul Rahman, A., & Razak, I. A. (2004). J. Cluster Sci. 15, 387–394. Web of Science CSD CrossRef Google Scholar
Shawkataly, O. bin., Ramalingam, K., Lee, S. T., Parameswary, M., Fun, H.-K. & Sivakumar, K. (1998). Polyhedron, 17, 1211–1216. CAS Google Scholar
Sheldrick, G. M. (2008). Acta Cryst. A64, 112–122. Web of Science CrossRef CAS IUCr Journals Google Scholar
Spek, A. L. (2009). Acta Cryst. D65, 148–155. Web of Science CrossRef CAS IUCr Journals Google Scholar
This is an open-access article distributed under the terms of the Creative Commons Attribution (CC-BY) Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.
Triangulo-triruthenium clusters are known for their interesting structural variations and related catalytic activity. A large number of substituted derivatives, Ru3(CO)12-nLn (L=15 group ligand) have been reported (Bruce et al., 1985, 1988a,b). As part of our study on the substitution of transition metal-carbonyl clusters with mixed-ligand complexes, we have published several structures of triangulo-triruthenium-carbonyl clusters containing mixed P/As and P/Sb ligands (Shawkataly et al., 1998, 2004, 2009,2010). Herein, we report the synthesis and structure of title compound.
The asymmetric unit consists of one molecule of the triangulo-triruthenium complex and half a molecule of dichloromethane solvent (Fig. 1). The dichloromethane solvent lies across a crystallographic inversion center leading to the molecule being disordered over two positions of equal occupancy. The bond lengths and angles of title compound are comparable to those found in related structure (Shawkataly et al., 2009,2010). The bis(diphenylarsino)methane ligand bridges the Ru1—Ru2 bond and the monodentate arsine ligand bonds to the Ru3 atom. Both the arsine ligands are equatorial with respect to the Ru3 triangle. Additionally, each Ru atom carries one equatorial and two axial terminal carbonyl ligands. The trimethoxyphenylarsino benzene rings make dihedral angles (C26–C31/C32–C37, C26–C31/C38–C43 and C32–C37/C38–C43) of 83.01 (8), 65.81 (8) and 76.20 (8)° with each other, respectively. The dihedral angles between the two benzene rings (C1–C6/C7–C12 and C14–C19/C20–C25) are 82.69 (9) and 78.83 (9)° for the two diphenylarsino groups, respectively.
In the crystal packing (Fig. 2), the molecules are stacked along a axis and weak intermolecular C—H···π interactions stabilize the crystal structure (Table 1).