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Both rac-[1-(1′-4′-Cp-4′,1′,12′-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11]·2THF (Cp is cyclo­penta­dienyl and THF is tetra­hydro­furan) or [Co2(C5H5)2(C4H22B20)]·2C4H8O, (1), and meso-[1-(1′-4′-Cp-4′,1′,12′-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11] or [Co2(C5H5)2(C4H22B20)], (2), were prepared by thermolysis of a rac/meso mixture of the precursor species [1-(1′-4′-Cp-4′,1′,6′-closo-CoC2B10H11)-4-Cp-4,1,6-closo-CoC2B10H11] and were separated, spectroscopically characterized and studied crystallographically. Cage C-atom identification was accomplished by both the vertex-to-centroid distance and boron–hydrogen distance methods, and, in both cases, the structure established crystallographically is fully consistent with the spectroscopic data. Both the rac-(1) and meso-(2) forms share the same overall conformation (Co—C—C′—Co′ ca 136°) and show clear evidence of intra­molecular steric crowding resulting in tilted cyclo­penta­dienyl ligands.

Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229615014539/ky3086sup1.cif
Contains datablocks 1.2THF, 2

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229615014539/ky30861.2THFsup2.hkl
Contains datablock 1.2THF

mol

MDL mol file https://doi.org/10.1107/S2053229615014539/ky30861.2THFsup4.mol
Supplementary material

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229615014539/ky30862sup3.hkl
Contains datablock 2

mol

MDL mol file https://doi.org/10.1107/S2053229615014539/ky30862sup5.mol
Supplementary material

CCDC references: 1416441; 1416440

Introduction top

Whilst the chemistry of single-cage carboranes is now a mature subject (Grimes, 2011), that of bis­(carboranes), that is two carborane units connected via a two-centre–two-electron bond, is relatively underdeveloped. The simplest bis­(carborane), namely 1,1'-bis­(ortho-carborane), formally [1-(1'-1',2'-closo-C2B10H11)-1,2-closo-C2B10H11)] (Wiesboeck & Hawthorne, 1964), consists of two ortho-carborane cages linked by a C1—C1' bond (Man et al., 2014). Some chemistry of 1,1'-bis­(ortho-carborane) has been reported (e.g. Hawthorne & Owen, 1971; Hawthorne, Dunks & McKown, 1971; Hawthorne, Owen & Wiggins, 1971; Yanovsky et al., 1979; Doi et al., 1984; Long et al., 1984; Behnken et al., 1985; Getman et al., 1990, 1992; Harwell et al., 1997; Ellis et al., 2010a; Thiripuranathar et al., 2015; Yao et al., 2015; Martin et al., 2015), but only one of these reports (Ellis et al., 2010a) is concerned with expansion of (one of) the cages to 13 vertices.

In 2010, we reported the expansion of both cages of 1,1'-bis­(ortho-carborane) with {CpCo} fragments to afford rac and meso diastereoisomers of the 13-vertex–13-vertex species [1-(1'-4'-Cp-4',1',6'-closo-CoC2B10H11)-4-Cp-4,1,6-closo-CoC2B10H11)] (Ellis et al., 2010b), mirroring the expansion of [1,2-closo-C2B10H12] to the first 13-vertex heteroborane, [4-Cp-4,1,6-closo-CoC2B10H12] (Hawthorne, Dunks & McKown, 1971). It is well established that [4-Cp-4,1,6-closo-CoC2B10H12] can be progressively thermolysed to its 4,1,8- and ultimately 4,1,12- isomeric analogues (Dustin et al., 1973). In the present communication, we report the isomerization of a rac and meso mixture of [1-(1'-4'-Cp-4',1',6'-closo-CoC2B10H11)-4-Cp-4,1,6-closo-CoC2B10H11)] at high temperature to afford a mixture of the respective 4,1,12-isomers, specifically rac-[1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)].2THF, (1), and meso-[1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)], (2), followed by separation and spectroscopic and structural characterization.

Experimental top

Synthesis and crystallization top

Rac- and meso-[1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)] were synthesised as a mixture of products by heating under a nitro­gen atmosphere a 1:1 rac- and meso- mixture of [1-(1'-4'-Cp-4',1',6'-closo-CoC2B10H11)-4-Cp-4,1,6-closo-CoC2B10H11)] (Ellis et al., 2010b) in xylenes at 453 K for 4 h. The products were separated by thin-layer chromatography (TLC) on silica using an eluent of CH2Cl2–petroleum ether (b.p. 313–333 K) (1:4 v/v), yielding rac form (1) (RF = 0.62, 36% yield) and meso form (2) (RF = 0.53, 32% yield) as orange bands. Elemental analysis for C14H32B20Co2 requires: C 31.4, H 6.03%; found for (1): C 31.5, H 6.08%; found for (2): C 30.6, H 6.15%. Single crystals were afforded by vapour diffusion of petroleum ether (b.p. 313–333 K) into THF solutions of the compounds at room temperature.

Characterization top

Electron ionisation mass spectrometry for both (1) and (2) envelopes centred on m/z 534 (M+). NMR spectroscopy (Bruker DPX-400 spectrometer, CDCl3 solutions, 293 K): for (1), 1H NMR δ: 5.34 (s, 10H, C5H5), 3.37 (br s, 2H, CcageH). 11B{1H} NMR: δ 8.1 (4B), 3.0 (4B), -3.8 (2B), -7.1 (2B), -8.3 (2B), -9.4 (2B), -15.2 (2B), -16.8 (2B); for (2), 1H NMR: 5.41 (s, 5H, C5H5), 5.34 (s, 5H, C5H5), 3.35 (br s, 1H, CcageH), 3.27 (br s, 1H, CcageH). 11B{1H} NMR: 8.0 (5B), 3.2 (3B), -3.8 (2B), -7.0 (2B), -7.9 (2B), -9.4 (2B), -15.2 (2B), -16.6 (2B).

Refinement top

Crystal data, data collection and structure refinement details are summarized in Table 1. Both structures were solved without problems, and two molecules of (partially disordered) THF of solvation were located in the crystal of rac form (1). Initially, only the linking atoms C1 and C1' were identified as carbon, with all other C or B cage atoms described as boron and with cage H atoms allowed positional refinement. This model (the Prostructure) was refined and then analysed by both the vertex-to-centroid distance (VCD) method (McAnaw et al., 2013) and the boron–hydrogen distance (BHD) method (McAnaw et al., 2014) methods. For both determinations, both methods led to the same conclusion regarding the location of the second C atoms in each cage, unambiguously found to be at vertices 12 and 12'. Refinement was completed with cage H atoms continuing to be refined positionally but with other H atoms riding on their bound C atom [C—H = 1.00 (C5H5) and 0.99 Å (THF)] and with Uiso(H) = 1.2Ueq(C,B). For (1), both molecules of THF of solvation are partially disordered. For the molecule including atom O1S, one β-C atom is disordered over two positions [atom C4S with a site-occupation factor (SOF) of 0.62 (2) and atom C8 with an SOF of 0.38 (2)], whilst for the molecule including atom O1A, one α-C atom and the adjacent β-C atom are disordered [atoms C5A and C4B with SOFs of 0.802 (11); and atoms C5B and C4A with SOFs of 0.198 (11)]. The same distance restraints with a standard uncertainty of 0.02 Å were applied to the THF C—C distances, and rigid-bond restraints (standard deviation = 0.01 Å2) were applied to atoms C4A, C4B, C3A, C5B and C5A and similarity displacement parameter restraints (standard deviation 0.04 Å2) restraints applied to atoms C4B, C4A, C5A and C5B.

Results and discussion top

Heating a rac and meso mixture of [1-(1'-4'-Cp-4',1',6'-closo-CoC2B10H11)-4-Cp-4,1,6-closo-CoC2B10H11)] at 453 K for 4 h affords a rac and meso mixture of the isomerized species [1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)], from which the pure compounds (1) (rac form) and (2) (meso form) can be isolated by thin-layer chromatography (TLC). The compound [1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)] is composed of two {4-Cp-4,1,12-closo-CoC2B10H11} cages linked by a C1—C1' bond. In both (1) and (2), there is one [(CpCoC2B10H11)2] molecule in the asymmetric fraction of the unit cell, but whilst crystals of meso form (2) are solvent-free, rac form (1) crystallizes with two molecules of THF of solvation, both of which are partially disordered. Figs. 1 and 2 show perspective views of molecules (1) and (2), respectively, and include the atom-numbering schemes.

In both (1) and (2), the geometry of the 13-vertex CoC2B10 cages is docosahedral, as was established for the archetypal 13-vertex metallacarborane [4-Cp-4,1,6-closo-CoC2B10H12] (Churchill & DeBoer, 1972). In the docosahedron are one degree-4 vertex [position 1, occupied by C atoms in (1) and (2)] and two degree-6 vertices [4 and 5, the former occupied by the Co atoms in (1) and (2)]. All other cage vertices are degree-5. In principle, there are seven possible isomers of a 4,1,x-MC2B10 docosahedron, where x could be 2, 5, 6, 8, 10, 11 or 12, and examples of all of these are currently known, with the exception of the 4,1,5-isomer. Since (1) and (2) were afforded by thermolysis of [1-(1'-4'-Cp-4',1',6'-closo-CoC2B10H11)-4-Cp-4,1,6-closo-CoC2B10H11)], we expected that in each cage the second C atom would be at either vertices 8 or 12 (or a combination thereof), based on literature precedent (Dustin et al., 1973), but we have sought to locate the second C atom (and thereby correctly define the isomer) without prejudice by using both the vertex-to-centroid distance (VCD) method (McAnaw et al., 2013) and the boron–hydrogen distance (BHD) analysis (McAnaw et al., 2014). For this, only the linking atoms C1 and C1' were identified as carbon, with all other cage atoms (except Co) described as boron and with H atoms allowed positional refinement. This afforded the Prostructure. Vertex-to-centroid distances were compared for topologically-equivalent vertices within each cage of the Prostructure and very clearly show (Table 2, left-hand non-italicized entries) that the second C atom is at vertex 12 (or 12') in all cases (VCD from 12 shorter than VCD from 13 by >0.15 Å in all cases). This conclusion was fully supported by the BHD analysis (Table 3) which reveals artificially short distances from vertex 12 to H in every case.

Note that in both (1) and (2) a small, but consistent, difference exists between VCDs from the topologically equivalent atoms B10 and B11 (VCD10 – VCD11 = 0.05–0.06 Å); however, any suggestion that vertices 11 are the locations of the C atoms in (1) and (2) is easily refuted by the BHDs, highlighting the importance of using both methods of cage C identification whenever possible. Nevertheless, the consistency of the difference in VCDs from B10 and B11 merits further consideration. Initially, we wondered if it was an artefact of the way we define the polyhedral centroid for docosahedral MC2B10 species, excluding the metal at vertex 4 and, for balance, the anti­podal atom at vertex 11 (McAnaw et al., 2013). To test this we redefined the centroids in (1) and (2) excluding not only the atoms at vertices 4 and 11 but also those at 5 and 10, hence restoring the effective C2v (mm2) symmetry of the remaining fragment (vertices 1, 2, 3, 6, 7, 8, 9, 12 and 13). This procedure affords the right-hand italicized entries in Table 2. The difference in VCDs from B10 and B11 has barely changed, if anything slightly increasing. We therefore ascribe the phenomenon to the differing positions of B10 and B11 in the polyhedron, B10 lying anti­podal to B5 and B11 lying anti­podal to Co4. There are 12 examples of crystallographically-characterized 4,1,12-MC2B10 species in the Cambridge Structural Database (CSD; Version 5.35; Groom & Allen, 2014), of which the metallacarborane cage is ordered in seven. In Table 4 are presented VCD analysis of these ordered structures. In all cases, we also observe that VCD11 is shorter than VCD10 (D ca 0.06–0.08 Å). Note that in one case (CSD refcode YALKUS; [4-dppe-4,1,12-closo-NiC2B10H12]; Ellis et al. 2005), the difference between VCDs from 10 and 11 is actually greater than that (0.03 Å) between VCDs from 12 and 13, which likely reflects some disorder of the degree-5 C atom between vertices 12 and 13 (4,1,12-MC2B10 and 4,1,13-MC2B10 are simply related as enanti­omers and, uniquely amongst the compounds analysed in Table 4, in YALKUS there are no substituents other than H on the cage C atoms so C12/B13 disorder is not unreasonable).

Having identified the positions of the nonlinking cage C atoms in (1) and (2), we confirm that (1) is the rac form of [1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)] and that (2) is the meso form. This is fully consistent with the NMR spectra of (1) and (2). In (1), the two Cp ligands and the two CcageH atoms are both chemically and magnetically equivalent and so give rise to one resonance each, whereas in (2), they are chemically equivalent but magnetically inequivalent, so there are two Cp and two CcageH resonances. Moreover, in (1) all the B atoms in the molecule exist pairwise magnetically leading to a 4:4:2:2:2:2:2:2 pattern of resonances (integral-4 resonances representing 2+2 coincidences) whereas in (2) this is not the case and (coincident) resonances integrating to odd-numbers of B atoms are found.

Selected molecular parameters are collected in Table 5. The overall structures of the rac (1) and meso (2) forms of [1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)] are remarkably similar both to each other and to those of their precursors [1-(1'-4'-Cp-4',1',6'-closo-CoC2B10H11)-4-Cp-4,1,6-closo-CoC2B10H11)] (Ellis et al., 2010b). Thus, the gross conformation, conveniently defined by the torsion angle Co4—C1—C1'—Co4', is 137.13 (13)° in (1) and 134.9 (3)° in (2) (144.8 and 137.9° in the respective precursors). Moreover, intra­molecular crowding is evidenced by both Cp ligands tilting away from the other metallacarborane cluster, qu­anti­fied by the dihedral angle θ between the Cp least-squares plane and that through cage vertices 5, 8, 13, 12 and 9 or their primed equivalents. In (1), θ values are 12.04 (7) and 11.72 (9)° for nonprimed and primed cages, respectively, whilst in (2) the equivalent θ values are 12.1 2) and 11.4 (2)° (11.0–11.4° in the precursor molecules). For comparison, θ values in TEGXOU (Me substituent on C1; McAnaw et al., 2012) and EDIMAG (Ph on C1; Zlatogorsky et al., 2007) are 8.7 and 6.8°, respectively, whilst in the archetypal docosahedral metallacarborane 4-Cp-4,1,6-closo-CoC2B10H12 (Churchill & DeBoer, 1972), θ is only 4.5°. The intra­molecular crowding in (1) and (2) appears to manifest itself mainly in an increase in θ as there is no appreciable slipping of the {CpCo} fragment towards vertices 6, 7 and 10 relative to these reference structures.

In (1), there is only one significant inter­molecular contact, an hydrogen bond between atoms H41 (a Cp H atom) and O1SA at 2.48 (2) Å (symmetry code: (A) -x+1, -y+1, -z+2); the angle subtended at H41 is 127.8 (5)°, and those at O1S are 125.5 (5) and 115.4 (5)°. In (2), the shortest inter­molecular contact is H12···H12B at 2.29 (8) Å [symmetry code: (B) -x+1, y, -z+3/2).

Computing details top

For both compounds, data collection: APEX2 (Bruker, 2009); cell refinement: SAINT (Bruker, 2009); data reduction: SAINT (Bruker, 2009); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL2013 (Sheldrick, 2015); molecular graphics: OLEX2 (Dolomanov et al., 2009); software used to prepare material for publication: publCIF (Westrip, 2010).

Figures top
[Figure 1] Fig. 1. Perspective view of rac-[1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)], (1), showing the atom numbering and with displacement ellipsoids drawn at the 50% probability level, except for H atoms. Tetrahydrofuran (THF) solvent molecules have been omitted for clarity.
[Figure 2] Fig. 2. Perspective view of meso-[1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)], (2), showing the atom numbering and with displacement ellipsoids drawn at the 50% probability level, except for H atoms.
(1.2THF) rac-[1-{1'-4'-Cyclopentadienyl-4'-cobalta-1',12'-dicarba-closo-dodecaboranyl(10)}-4-cyclopentadienyl-4-cobalta-1,12-dicarba-closo-dodecaborane(10)] tetrahydrofuran disolvate top
Crystal data top
[Co2(C5H5)2(C4H22B20)]·2C4H8OZ = 2
Mr = 678.66F(000) = 700
Triclinic, P1Dx = 1.364 Mg m3
a = 8.9219 (5) ÅMo Kα radiation, λ = 0.71073 Å
b = 12.4145 (7) ÅCell parameters from 6227 reflections
c = 15.5650 (9) Åθ = 2.4–27.0°
α = 89.659 (3)°µ = 1.03 mm1
β = 79.993 (4)°T = 100 K
γ = 76.920 (3)°Plate, red
V = 1652.72 (16) Å30.4 × 0.16 × 0.06 mm
Data collection top
Bruker APEXII CCD
diffractometer
8236 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.058
φ and ω scansθmax = 32.0°, θmin = 2.1°
Absorption correction: multi-scan
(SADABS; Bruker, 2008)
h = 1313
Tmin = 0.669, Tmax = 0.746k = 1818
41114 measured reflectionsl = 2223
11163 independent reflections
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.044H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.110 w = 1/[σ2(Fo2) + (0.0481P)2 + 0.3296P]
where P = (Fo2 + 2Fc2)/3
S = 1.03(Δ/σ)max = 0.011
11163 reflectionsΔρmax = 0.64 e Å3
510 parametersΔρmin = 0.60 e Å3
63 restraints
Crystal data top
[Co2(C5H5)2(C4H22B20)]·2C4H8Oγ = 76.920 (3)°
Mr = 678.66V = 1652.72 (16) Å3
Triclinic, P1Z = 2
a = 8.9219 (5) ÅMo Kα radiation
b = 12.4145 (7) ŵ = 1.03 mm1
c = 15.5650 (9) ÅT = 100 K
α = 89.659 (3)°0.4 × 0.16 × 0.06 mm
β = 79.993 (4)°
Data collection top
Bruker APEXII CCD
diffractometer
11163 independent reflections
Absorption correction: multi-scan
(SADABS; Bruker, 2008)
8236 reflections with I > 2σ(I)
Tmin = 0.669, Tmax = 0.746Rint = 0.058
41114 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.04463 restraints
wR(F2) = 0.110H atoms treated by a mixture of independent and constrained refinement
S = 1.03Δρmax = 0.64 e Å3
11163 reflectionsΔρmin = 0.60 e Å3
510 parameters
Special details top

Experimental. Absorption correction: SADABS-2008/1 (Bruker,2008) was used for absorption correction. wR2(int) was 0.0680 before and 0.0557 after correction. The Ratio of minimum to maximum transmission is 0.8964. The λ/2 correction factor is 0.0015.

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.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
B20.0449 (3)0.28228 (18)0.77633 (14)0.0152 (4)
H20.100 (3)0.3491 (18)0.7733 (14)0.018*
B30.0139 (2)0.09990 (17)0.69019 (15)0.0138 (4)
C2A0.3142 (4)0.6579 (3)0.7907 (2)0.0553 (9)
H2AA0.37590.71220.76780.066*
H2AB0.23110.66010.75570.066*
H30.058 (4)0.044 (3)0.632 (2)0.066*
B50.1241 (2)0.25828 (18)0.71417 (15)0.0154 (4)
H50.156 (3)0.3110 (18)0.6645 (14)0.018*
B60.0221 (3)0.23547 (19)0.88286 (15)0.0191 (4)
H60.010 (3)0.2674 (19)0.9383 (15)0.023*
B70.0615 (3)0.03543 (19)0.78819 (15)0.0165 (4)
H70.037 (3)0.0545 (18)0.7795 (15)0.020*
B80.1945 (3)0.12437 (18)0.73190 (15)0.0160 (4)
H80.257 (3)0.0956 (18)0.6841 (14)0.019*
B90.1583 (3)0.32133 (19)0.82681 (16)0.0195 (4)
H90.206 (3)0.4108 (19)0.8473 (15)0.023*
B100.0720 (3)0.1026 (2)0.89046 (15)0.0188 (4)
H100.068 (3)0.0647 (18)0.9519 (15)0.023*
B110.2825 (3)0.24274 (19)0.79682 (16)0.0197 (5)
H110.402 (3)0.2904 (18)0.7944 (15)0.024*
B130.2421 (3)0.1100 (2)0.84438 (16)0.0195 (5)
H130.333 (3)0.0745 (19)0.8763 (15)0.023*
C10.0810 (2)0.20327 (14)0.69404 (12)0.0121 (3)
C80.778 (2)0.6932 (12)0.8517 (7)0.074 (5)0.38 (2)
H8A0.88810.69810.83310.089*0.38 (2)
H8B0.75260.64120.81150.089*0.38 (2)
C120.2098 (2)0.22354 (17)0.89226 (14)0.0204 (4)
H120.276 (3)0.2480 (18)0.9464 (16)0.024*
C190.7479 (4)0.6587 (2)0.94564 (19)0.0507 (8)
H19C0.71950.58600.94720.061*0.38 (2)
H19D0.84480.65030.97030.061*0.38 (2)
H19A0.70710.60090.91990.061*0.62 (2)
H19B0.82830.62320.97990.061*0.62 (2)
C410.3429 (2)0.11894 (17)0.84035 (13)0.0183 (4)
H410.37140.18890.85560.022*
C420.3788 (2)0.06475 (16)0.75704 (13)0.0165 (4)
H420.43490.09150.70270.020*
C430.3165 (2)0.03148 (16)0.76233 (13)0.0184 (4)
H430.32420.08530.71330.022*
C440.2435 (2)0.03795 (17)0.85037 (14)0.0205 (4)
H440.19210.09800.87470.025*
C450.2599 (2)0.05510 (18)0.89839 (14)0.0214 (4)
H450.22120.07170.96220.026*
Co40.13601 (3)0.10606 (2)0.80082 (2)0.01272 (7)
B2'0.1498 (2)0.35832 (16)0.58893 (14)0.0129 (4)
H2'0.056 (3)0.4167 (17)0.6265 (14)0.016*
B3'0.3172 (2)0.14416 (16)0.56242 (14)0.0123 (4)
H3'0.328 (2)0.0586 (17)0.5819 (14)0.015*
B5'0.3527 (2)0.28200 (17)0.62246 (15)0.0136 (4)
H5'0.365 (3)0.2861 (17)0.6887 (14)0.016*
B6'0.2202 (3)0.39777 (16)0.48002 (15)0.0140 (4)
H6'0.158 (3)0.4660 (17)0.4546 (14)0.017*
B7'0.4066 (2)0.16336 (17)0.45156 (14)0.0130 (4)
H7'0.443 (3)0.0845 (17)0.4114 (14)0.016*
B8'0.5031 (2)0.18367 (17)0.53901 (14)0.0138 (4)
H8'0.602 (3)0.1209 (17)0.5589 (14)0.017*
B9'0.3186 (3)0.41639 (17)0.56546 (15)0.0143 (4)
H9'0.312 (3)0.4948 (17)0.5908 (14)0.017*
B10'0.3501 (3)0.29417 (17)0.40554 (15)0.0145 (4)
H10'0.361 (3)0.3077 (17)0.3363 (15)0.017*
B11'0.5016 (3)0.32354 (17)0.54717 (15)0.0147 (4)
H11'0.586 (3)0.3500 (17)0.5671 (14)0.018*
B13'0.5316 (3)0.25481 (17)0.44259 (15)0.0157 (4)
H13'0.638 (3)0.2424 (17)0.3965 (15)0.019*
C1'0.1832 (2)0.23426 (14)0.61333 (12)0.0109 (3)
C12'0.4147 (2)0.38484 (15)0.46348 (13)0.0150 (4)
H12'0.457 (3)0.4388 (18)0.4323 (14)0.018*
C41'0.0733 (2)0.11108 (15)0.44314 (13)0.0151 (4)
H41'0.11370.03100.45330.018*
C42'0.1259 (2)0.17040 (17)0.37006 (13)0.0181 (4)
H42'0.20890.13910.31900.022*
C43'0.0364 (2)0.28183 (17)0.38123 (13)0.0200 (4)
H43'0.04670.34240.33950.024*
C44'0.0707 (2)0.29148 (16)0.46048 (13)0.0170 (4)
H44'0.14820.36010.48550.020*
C45'0.0483 (2)0.18566 (15)0.49824 (13)0.0145 (4)
H45'0.10660.16760.55530.017*
Co4'0.15929 (3)0.24130 (2)0.48084 (2)0.01049 (6)
C3A0.4191 (5)0.5420 (3)0.7870 (2)0.0618 (10)
H3AB0.41470.49980.73410.074*0.802 (11)
H3AA0.52900.54510.78720.074*0.802 (11)
H3AD0.52600.53780.75420.074*0.198 (11)
H3AC0.37310.48500.76430.074*0.198 (11)
C4A0.412 (2)0.539 (3)0.8858 (8)0.107 (9)0.198 (11)
H4AA0.45260.46350.90470.128*0.198 (11)
H4AB0.47020.59020.90610.128*0.198 (11)
C5A0.2357 (10)0.5785 (3)0.9172 (4)0.074 (2)0.802 (11)
H5AB0.17200.53850.88890.089*0.802 (11)
H5AA0.20360.58240.98150.089*0.802 (11)
O1A0.2486 (3)0.68214 (16)0.87972 (15)0.0689 (8)
C4B0.3532 (8)0.4917 (3)0.8673 (4)0.067 (2)0.802 (11)
H4BA0.42990.42950.88620.081*0.802 (11)
H4BB0.25640.46800.86180.081*0.802 (11)
C5B0.322 (3)0.5947 (18)0.9250 (16)0.079 (7)0.198 (11)
H5BA0.25380.58650.98090.095*0.198 (11)
H5BB0.42130.60800.93780.095*0.198 (11)
C2S0.5554 (3)0.8146 (2)0.94082 (16)0.0378 (6)
H2SA0.53260.89040.96690.045*
H2SB0.45590.79800.93140.045*
C3S0.6674 (3)0.8061 (2)0.85539 (17)0.0406 (6)
H3SA0.62790.77370.80840.049*0.62 (2)
H3SB0.68560.87960.83790.049*0.62 (2)
H3SC0.72610.86530.85270.049*0.38 (2)
H3SD0.61010.81340.80580.049*0.38 (2)
C4S0.8132 (8)0.7314 (9)0.8750 (7)0.058 (3)0.62 (2)
H4SA0.88060.77390.89740.070*0.62 (2)
H4SB0.87340.68640.82270.070*0.62 (2)
O1S0.6269 (3)0.73696 (16)0.99709 (12)0.0487 (5)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
B20.0119 (10)0.0170 (10)0.0160 (10)0.0023 (8)0.0019 (8)0.0022 (8)
B30.0095 (9)0.0151 (9)0.0173 (10)0.0036 (7)0.0028 (8)0.0015 (8)
C2A0.064 (2)0.0503 (18)0.0482 (19)0.0089 (16)0.0056 (16)0.0178 (15)
B50.0110 (9)0.0160 (9)0.0180 (10)0.0014 (8)0.0014 (8)0.0010 (8)
B60.0159 (11)0.0239 (11)0.0160 (11)0.0037 (9)0.0002 (8)0.0037 (9)
B70.0134 (10)0.0199 (10)0.0173 (10)0.0064 (8)0.0022 (8)0.0037 (8)
B80.0113 (9)0.0191 (10)0.0176 (10)0.0042 (8)0.0017 (8)0.0017 (8)
B90.0154 (11)0.0212 (11)0.0195 (11)0.0012 (8)0.0002 (8)0.0034 (9)
B100.0138 (10)0.0262 (11)0.0158 (11)0.0052 (9)0.0002 (8)0.0031 (9)
B110.0122 (10)0.0233 (11)0.0217 (12)0.0024 (8)0.0003 (8)0.0006 (9)
B130.0119 (10)0.0261 (11)0.0203 (11)0.0059 (9)0.0002 (8)0.0027 (9)
C10.0089 (8)0.0120 (8)0.0143 (9)0.0004 (6)0.0015 (6)0.0003 (6)
C80.110 (12)0.063 (8)0.031 (5)0.013 (7)0.007 (6)0.012 (5)
C120.0143 (9)0.0265 (10)0.0179 (10)0.0036 (8)0.0024 (8)0.0029 (8)
C190.064 (2)0.0404 (16)0.0388 (16)0.0039 (14)0.0071 (15)0.0004 (13)
C410.0135 (9)0.0232 (10)0.0198 (10)0.0034 (7)0.0079 (7)0.0003 (8)
C420.0086 (8)0.0205 (9)0.0197 (10)0.0008 (7)0.0037 (7)0.0028 (7)
C430.0152 (9)0.0175 (9)0.0210 (10)0.0004 (7)0.0035 (8)0.0021 (7)
C440.0161 (9)0.0214 (10)0.0236 (11)0.0025 (8)0.0053 (8)0.0084 (8)
C450.0161 (10)0.0307 (11)0.0164 (10)0.0022 (8)0.0048 (8)0.0046 (8)
Co40.01003 (12)0.01549 (12)0.01270 (13)0.00292 (9)0.00219 (9)0.00108 (9)
B2'0.0103 (9)0.0114 (9)0.0168 (10)0.0014 (7)0.0031 (8)0.0002 (7)
B3'0.0102 (9)0.0105 (8)0.0163 (10)0.0016 (7)0.0032 (7)0.0010 (7)
B5'0.0117 (9)0.0120 (9)0.0178 (10)0.0029 (7)0.0039 (8)0.0006 (7)
B6'0.0136 (10)0.0099 (9)0.0194 (10)0.0028 (7)0.0054 (8)0.0028 (7)
B7'0.0102 (9)0.0126 (9)0.0157 (10)0.0021 (7)0.0014 (7)0.0018 (7)
B8'0.0096 (9)0.0137 (9)0.0174 (10)0.0017 (7)0.0013 (8)0.0001 (8)
B9'0.0138 (10)0.0094 (8)0.0206 (11)0.0038 (7)0.0041 (8)0.0005 (8)
B10'0.0131 (10)0.0132 (9)0.0181 (10)0.0048 (7)0.0032 (8)0.0024 (8)
B11'0.0128 (10)0.0139 (9)0.0198 (11)0.0059 (8)0.0064 (8)0.0032 (8)
B13'0.0128 (10)0.0142 (9)0.0197 (11)0.0030 (8)0.0019 (8)0.0026 (8)
C1'0.0087 (8)0.0114 (7)0.0136 (8)0.0032 (6)0.0036 (6)0.0002 (6)
C12'0.0137 (9)0.0129 (8)0.0205 (10)0.0059 (7)0.0047 (7)0.0031 (7)
C41'0.0137 (9)0.0133 (8)0.0205 (10)0.0063 (7)0.0042 (7)0.0031 (7)
C42'0.0171 (9)0.0257 (10)0.0144 (9)0.0098 (8)0.0045 (7)0.0022 (7)
C43'0.0219 (10)0.0229 (10)0.0214 (10)0.0117 (8)0.0118 (8)0.0082 (8)
C44'0.0139 (9)0.0167 (9)0.0225 (10)0.0033 (7)0.0091 (8)0.0035 (7)
C45'0.0117 (8)0.0160 (8)0.0177 (9)0.0056 (7)0.0043 (7)0.0004 (7)
Co4'0.00958 (12)0.00897 (11)0.01376 (13)0.00277 (9)0.00351 (9)0.00103 (9)
C3A0.089 (3)0.0433 (17)0.0377 (17)0.0020 (17)0.0085 (17)0.0005 (14)
C4A0.104 (11)0.13 (2)0.061 (8)0.018 (17)0.001 (12)0.067 (13)
C5A0.109 (5)0.0242 (18)0.057 (3)0.007 (2)0.042 (3)0.0079 (18)
O1A0.103 (2)0.0291 (10)0.0515 (14)0.0044 (11)0.0246 (13)0.0031 (10)
C4B0.095 (4)0.030 (2)0.053 (3)0.002 (2)0.029 (3)0.0030 (18)
C5B0.062 (14)0.119 (17)0.055 (10)0.024 (13)0.000 (10)0.053 (12)
C2S0.0399 (15)0.0461 (15)0.0276 (13)0.0109 (12)0.0057 (11)0.0096 (11)
C3S0.0499 (17)0.0417 (15)0.0304 (14)0.0166 (13)0.0005 (12)0.0035 (11)
C4S0.049 (4)0.076 (5)0.036 (4)0.001 (3)0.012 (3)0.014 (4)
O1S0.0700 (15)0.0443 (11)0.0246 (10)0.0018 (10)0.0084 (9)0.0022 (8)
Geometric parameters (Å, º) top
B2—H21.05 (2)B3'—B5'2.066 (3)
B2—B52.003 (3)B3'—B7'1.809 (3)
B2—B61.802 (3)B3'—B8'1.811 (3)
B2—B91.803 (3)B3'—C1'1.544 (3)
B2—C11.560 (3)B3'—Co4'2.211 (2)
B2—Co42.210 (2)B5'—H5'1.06 (2)
B3—H31.11 (3)B5'—B8'1.911 (3)
B3—B52.067 (3)B5'—B9'1.873 (3)
B3—B71.814 (3)B5'—B11'1.779 (3)
B3—B81.815 (3)B5'—C1'1.772 (3)
B3—C11.539 (3)B6'—H6'1.02 (2)
B3—Co42.202 (2)B6'—B9'1.759 (3)
C2A—H2AA0.9900B6'—B10'1.794 (3)
C2A—H2AB0.9900B6'—C12'1.680 (3)
C2A—C3A1.524 (4)B6'—Co4'2.132 (2)
C2A—O1A1.413 (4)B7'—H7'1.12 (2)
B5—H51.05 (2)B7'—B8'1.780 (3)
B5—B81.908 (3)B7'—B10'1.774 (3)
B5—B91.871 (3)B7'—B13'1.752 (3)
B5—B111.783 (3)B7'—Co4'2.169 (2)
B5—C11.775 (3)B8'—H8'1.12 (2)
B6—H61.06 (2)B8'—B11'1.739 (3)
B6—B91.773 (3)B8'—B13'1.747 (3)
B6—B101.801 (3)B9'—H9'1.04 (2)
B6—C121.695 (3)B9'—B11'1.751 (3)
B6—Co42.139 (2)B9'—C12'1.671 (3)
B7—H71.09 (2)B10'—H10'1.08 (2)
B7—B81.775 (3)B10'—B13'1.776 (3)
B7—B101.780 (3)B10'—C12'1.703 (3)
B7—B131.751 (3)B10'—Co4'2.123 (2)
B7—Co42.176 (2)B11'—H11'0.99 (2)
B8—H81.11 (2)B11'—B13'1.792 (3)
B8—B111.737 (3)B11'—C12'1.717 (3)
B8—B131.746 (3)B13'—H13'1.07 (2)
B9—H91.12 (2)B13'—C12'1.710 (3)
B9—B111.753 (3)C1'—Co4'2.1091 (18)
B9—C121.673 (3)C12'—H12'0.94 (2)
B10—H101.07 (2)C41'—H41'1.0000
B10—B131.773 (3)C41'—C42'1.420 (3)
B10—C121.709 (3)C41'—C45'1.415 (3)
B10—Co42.128 (2)C41'—Co4'2.0677 (18)
B11—H111.10 (2)C42'—H42'1.0000
B11—B131.789 (3)C42'—C43'1.427 (3)
B11—C121.716 (3)C42'—Co4'2.038 (2)
B13—H131.06 (2)C43'—H43'1.0000
B13—C121.702 (3)C43'—C44'1.410 (3)
C1—Co42.1099 (17)C43'—Co4'2.0471 (19)
C1—C1'1.521 (2)C44'—H44'1.0000
C8—H8A0.9900C44'—C45'1.423 (2)
C8—H8B0.9900C44'—Co4'2.0839 (19)
C8—C191.518 (10)C45'—H45'1.0000
C8—C3S1.515 (10)C45'—Co4'2.0939 (18)
C12—H120.95 (2)C3A—H3AB0.9900
C19—H19C0.9900C3A—H3AA0.9900
C19—H19D0.9900C3A—H3AD0.9900
C19—H19A0.9900C3A—H3AC0.9900
C19—H19B0.9900C3A—C4A1.529 (13)
C19—C4S1.538 (7)C3A—C4B1.483 (5)
C19—O1S1.409 (3)C4A—H4AA0.9900
C41—H411.0000C4A—H4AB0.9900
C41—C421.416 (3)C4A—C5A1.530 (14)
C41—C451.420 (3)C5A—H5AB0.9900
C41—Co42.0834 (19)C5A—H5AA0.9900
C42—H421.0000C5A—O1A1.430 (5)
C42—C431.423 (3)O1A—C5B1.39 (3)
C42—Co42.0997 (19)C4B—H4BA0.9900
C43—H431.0000C4B—H4BB0.9900
C43—C441.422 (3)C4B—C5B1.512 (13)
C43—Co42.0737 (19)C5B—H5BA0.9900
C44—H441.0000C5B—H5BB0.9900
C44—C451.428 (3)C2S—H2SA0.9900
C44—Co42.0433 (19)C2S—H2SB0.9900
C45—H451.0000C2S—C3S1.507 (3)
C45—Co42.045 (2)C2S—O1S1.417 (3)
B2'—H2'1.06 (2)C3S—H3SA0.9900
B2'—B5'1.999 (3)C3S—H3SB0.9900
B2'—B6'1.808 (3)C3S—H3SC0.9900
B2'—B9'1.794 (3)C3S—H3SD0.9900
B2'—C1'1.559 (3)C3S—C4S1.494 (7)
B2'—Co4'2.207 (2)C4S—H4SA0.9900
B3'—H3'1.09 (2)C4S—H4SB0.9900
B5—B2—H2129.3 (12)B7'—B3'—Co4'64.39 (9)
B5—B2—Co496.17 (11)B8'—B3'—H3'113.2 (11)
B6—B2—H2117.5 (12)B8'—B3'—B5'58.60 (11)
B6—B2—B599.97 (14)B8'—B3'—Co4'108.49 (11)
B6—B2—B958.94 (13)C1'—B3'—H3'118.4 (11)
B6—B2—Co463.47 (10)C1'—B3'—B5'56.60 (11)
B9—B2—H2112.5 (12)C1'—B3'—B7'121.48 (15)
B9—B2—B558.63 (12)C1'—B3'—B8'113.89 (15)
B9—B2—Co4108.53 (13)C1'—B3'—Co4'65.57 (9)
C1—B2—H2117.7 (12)Co4'—B3'—H3'129.1 (12)
C1—B2—B558.16 (12)B2'—B5'—B3'84.50 (12)
C1—B2—B6120.70 (16)B2'—B5'—H5'118.8 (12)
C1—B2—B9114.99 (17)B3'—B5'—H5'123.9 (11)
C1—B2—Co465.43 (10)B8'—B5'—B2'118.76 (15)
Co4—B2—H2129.9 (12)B8'—B5'—B3'54.02 (10)
B5—B3—H3134.7 (16)B8'—B5'—H5'121.6 (12)
B5—B3—Co494.56 (11)B9'—B5'—B2'55.10 (10)
B7—B3—H3115.5 (16)B9'—B5'—B3'118.27 (14)
B7—B3—B599.31 (14)B9'—B5'—H5'116.5 (11)
B7—B3—B858.55 (12)B9'—B5'—B8'103.68 (14)
B7—B3—Co464.76 (10)B11'—B5'—B2'106.18 (13)
B8—B3—H3116.2 (17)B11'—B5'—B3'104.19 (14)
B8—B3—B558.44 (11)B11'—B5'—H5'114.7 (12)
B8—B3—Co4108.54 (13)B11'—B5'—B8'56.09 (11)
C1—B3—H3117.2 (17)B11'—B5'—B9'57.21 (11)
C1—B3—B556.70 (11)C1'—B5'—B2'48.37 (9)
C1—B3—B7121.97 (17)C1'—B5'—B3'46.67 (10)
C1—B3—B8113.84 (16)C1'—B5'—H5'110.5 (12)
C1—B3—Co465.90 (10)C1'—B5'—B8'99.69 (14)
Co4—B3—H3125.6 (17)C1'—B5'—B9'102.00 (13)
H2AA—C2A—H2AB108.7C1'—B5'—B11'134.85 (16)
C3A—C2A—H2AA110.6B2'—B6'—H6'119.3 (12)
C3A—C2A—H2AB110.6B2'—B6'—Co4'67.58 (9)
O1A—C2A—H2AA110.6B9'—B6'—B2'60.39 (12)
O1A—C2A—H2AB110.6B9'—B6'—H6'118.8 (13)
O1A—C2A—C3A105.8 (2)B9'—B6'—B10'107.27 (15)
B2—B5—B384.21 (12)B9'—B6'—Co4'112.96 (12)
B2—B5—H5119.5 (13)B10'—B6'—B2'118.57 (14)
B3—B5—H5123.1 (12)B10'—B6'—H6'118.1 (12)
B8—B5—B2118.55 (14)B10'—B6'—Co4'64.81 (9)
B8—B5—B354.16 (10)C12'—B6'—B2'110.81 (15)
B8—B5—H5121.0 (13)C12'—B6'—H6'115.8 (13)
B9—B5—B255.33 (12)C12'—B6'—B9'58.06 (12)
B9—B5—B3118.44 (14)C12'—B6'—B10'58.59 (12)
B9—B5—H5117.2 (12)C12'—B6'—Co4'112.09 (12)
B9—B5—B8103.68 (14)Co4'—B6'—H6'122.3 (13)
B11—B5—B2106.34 (15)B3'—B7'—H7'112.3 (11)
B11—B5—B3104.34 (14)B3'—B7'—Co4'66.82 (9)
B11—B5—H5114.7 (12)B8'—B7'—B3'60.61 (12)
B11—B5—B856.02 (12)B8'—B7'—H7'120.8 (11)
B11—B5—B957.28 (13)B8'—B7'—Co4'111.56 (13)
C1—B5—B248.34 (10)B10'—B7'—B3'118.30 (15)
C1—B5—B346.48 (10)B10'—B7'—H7'122.4 (11)
C1—B5—H5110.3 (12)B10'—B7'—B8'107.06 (15)
C1—B5—B899.64 (13)B10'—B7'—Co4'64.25 (9)
C1—B5—B9102.26 (15)B13'—B7'—B3'114.22 (16)
C1—B5—B11135.01 (16)B13'—B7'—H7'119.4 (11)
B2—B6—H6119.3 (13)B13'—B7'—B8'59.27 (12)
B2—B6—Co467.61 (10)B13'—B7'—B10'60.51 (12)
B9—B6—B260.56 (13)B13'—B7'—Co4'114.98 (12)
B9—B6—H6119.9 (12)Co4'—B7'—H7'117.7 (11)
B9—B6—B10106.80 (17)B3'—B8'—B5'67.38 (12)
B9—B6—Co4112.88 (14)B3'—B8'—H8'113.4 (11)
B10—B6—B2118.44 (17)B5'—B8'—H8'121.8 (11)
B10—B6—H6117.9 (12)B7'—B8'—B3'60.50 (12)
B10—B6—Co464.71 (10)B7'—B8'—B5'106.58 (14)
C12—B6—B2110.52 (16)B7'—B8'—H8'124.4 (11)
C12—B6—H6116.8 (13)B11'—B8'—B3'117.76 (15)
C12—B6—B957.62 (13)B11'—B8'—B5'58.13 (12)
C12—B6—B1058.42 (13)B11'—B8'—B7'108.20 (14)
C12—B6—Co4111.73 (14)B11'—B8'—H8'119.4 (11)
Co4—B6—H6121.3 (13)B11'—B8'—B13'61.89 (13)
B3—B7—H7111.8 (12)B13'—B8'—B3'114.38 (15)
B3—B7—Co466.28 (10)B13'—B8'—B5'107.56 (14)
B8—B7—B360.75 (12)B13'—B8'—B7'59.56 (12)
B8—B7—H7121.7 (12)B13'—B8'—H8'120.9 (11)
B8—B7—B10106.90 (16)B2'—B9'—B5'66.00 (11)
B8—B7—Co4111.28 (13)B2'—B9'—H9'118.9 (12)
B10—B7—B3117.74 (16)B5'—B9'—H9'127.7 (12)
B10—B7—H7122.7 (12)B6'—B9'—B2'61.15 (12)
B10—B7—Co464.17 (10)B6'—B9'—B5'106.57 (14)
B13—B7—B3114.20 (16)B6'—B9'—H9'121.2 (12)
B13—B7—H7121.0 (12)B11'—B9'—B2'117.04 (14)
B13—B7—B859.37 (13)B11'—B9'—B5'58.68 (11)
B13—B7—B1060.28 (13)B11'—B9'—B6'108.33 (16)
B13—B7—Co4114.64 (15)B11'—B9'—H9'117.6 (12)
Co4—B7—H7116.5 (12)C12'—B9'—B2'111.94 (15)
B3—B8—B567.40 (12)C12'—B9'—B5'104.48 (14)
B3—B8—H8111.4 (12)C12'—B9'—B6'58.61 (12)
B5—B8—H8120.1 (11)C12'—B9'—H9'117.4 (12)
B7—B8—B360.70 (12)C12'—B9'—B11'60.19 (12)
B7—B8—B5107.07 (15)B6'—B10'—H10'118.6 (11)
B7—B8—H8124.4 (11)B6'—B10'—Co4'65.32 (9)
B11—B8—B3118.06 (16)B7'—B10'—B6'114.48 (15)
B11—B8—B558.34 (12)B7'—B10'—H10'124.5 (11)
B11—B8—B7108.71 (17)B7'—B10'—B13'59.14 (12)
B11—B8—H8120.0 (11)B7'—B10'—Co4'66.94 (9)
B11—B8—B1361.81 (13)B13'—B10'—B6'108.79 (16)
B13—B8—B3114.37 (16)B13'—B10'—H10'114.4 (12)
B13—B8—B5107.50 (16)B13'—B10'—Co4'116.10 (13)
B13—B8—B759.62 (13)C12'—B10'—B6'57.37 (12)
B13—B8—H8123.2 (12)C12'—B10'—B7'105.92 (15)
B2—B9—B566.04 (13)C12'—B10'—H10'115.2 (12)
B2—B9—H9116.5 (12)C12'—B10'—B13'58.85 (12)
B5—B9—H9127.3 (12)C12'—B10'—Co4'111.55 (13)
B6—B9—B260.50 (13)Co4'—B10'—H10'123.5 (12)
B6—B9—B5106.28 (15)B5'—B11'—H11'121.4 (13)
B6—B9—H9120.3 (12)B5'—B11'—B13'111.51 (15)
B11—B9—B2117.07 (17)B8'—B11'—B5'65.78 (12)
B11—B9—B558.83 (13)B8'—B11'—B9'117.02 (15)
B11—B9—B6108.44 (17)B8'—B11'—H11'122.2 (12)
B11—B9—H9119.9 (12)B8'—B11'—B13'59.27 (12)
C12—B9—B2111.52 (16)B9'—B11'—B5'64.11 (12)
C12—B9—B5104.36 (16)B9'—B11'—H11'115.4 (13)
C12—B9—B658.84 (13)B9'—B11'—B13'109.29 (15)
C12—B9—H9119.5 (12)B13'—B11'—H11'121.1 (13)
C12—B9—B1160.07 (13)C12'—B11'—B5'106.67 (15)
B6—B10—H10115.5 (13)C12'—B11'—B8'106.21 (15)
B6—B10—Co465.34 (10)C12'—B11'—B9'57.59 (12)
B7—B10—B6114.60 (15)C12'—B11'—H11'121.4 (12)
B7—B10—H10126.8 (12)C12'—B11'—B13'58.29 (12)
B7—B10—Co467.00 (10)B7'—B13'—B10'60.36 (12)
B13—B10—B6108.76 (16)B7'—B13'—B11'107.07 (15)
B13—B10—B759.05 (13)B7'—B13'—H13'123.2 (12)
B13—B10—H10117.4 (13)B8'—B13'—B7'61.16 (12)
B13—B10—Co4115.99 (14)B8'—B13'—B10'108.42 (15)
C12—B10—B657.68 (13)B8'—B13'—B11'58.84 (12)
C12—B10—B7105.67 (16)B8'—B13'—H13'125.4 (12)
C12—B10—H10115.1 (12)B10'—B13'—B11'105.67 (15)
C12—B10—B1358.49 (13)B10'—B13'—H13'119.5 (12)
C12—B10—Co4111.67 (13)B11'—B13'—H13'123.7 (13)
Co4—B10—H10121.6 (13)C12'—B13'—B7'106.56 (15)
B5—B11—H11119.8 (12)C12'—B13'—B8'106.15 (16)
B5—B11—B13111.28 (16)C12'—B13'—B10'58.43 (12)
B8—B11—B565.64 (13)C12'—B13'—B11'58.66 (12)
B8—B11—B9116.74 (17)C12'—B13'—H13'120.0 (11)
B8—B11—H11122.6 (13)C1—C1'—B2'117.16 (15)
B8—B11—B1359.35 (13)C1—C1'—B3'119.29 (14)
B9—B11—B563.89 (13)C1—C1'—B5'120.58 (15)
B9—B11—H11114.4 (12)C1—C1'—Co4'131.94 (12)
B9—B11—B13109.07 (17)B2'—C1'—B5'73.43 (12)
B13—B11—H11123.1 (12)B2'—C1'—Co4'72.24 (10)
C12—B11—B5106.40 (16)B3'—C1'—B2'123.50 (15)
C12—B11—B8106.00 (16)B3'—C1'—B5'76.73 (13)
C12—B11—B957.63 (13)B3'—C1'—Co4'72.62 (10)
C12—B11—H11122.5 (12)B5'—C1'—Co4'107.39 (11)
C12—B11—B1358.04 (13)B6'—C12'—B10'64.04 (12)
B7—B13—B1060.67 (13)B6'—C12'—B11'113.76 (15)
B7—B13—B11107.46 (15)B6'—C12'—B13'117.76 (15)
B7—B13—H13125.0 (13)B6'—C12'—H12'119.1 (14)
B8—B13—B761.01 (13)B9'—C12'—B6'63.33 (13)
B8—B13—B10108.48 (16)B9'—C12'—B10'116.03 (15)
B8—B13—B1158.84 (13)B9'—C12'—B11'62.22 (12)
B8—B13—H13125.9 (13)B9'—C12'—B13'117.45 (15)
B10—B13—B11106.29 (16)B9'—C12'—H12'118.6 (14)
B10—B13—H13120.0 (13)B10'—C12'—B11'112.51 (14)
B11—B13—H13121.6 (13)B10'—C12'—B13'62.72 (12)
C12—B13—B7107.27 (16)B10'—C12'—H12'117.3 (14)
C12—B13—B8106.24 (16)B11'—C12'—H12'118.5 (14)
C12—B13—B1058.88 (13)B13'—C12'—B11'63.05 (13)
C12—B13—B1158.84 (13)B13'—C12'—H12'112.5 (14)
C12—B13—H13118.2 (13)C42'—C41'—H41'126.3
B2—C1—B573.50 (13)C42'—C41'—Co4'68.62 (11)
B2—C1—Co472.30 (11)C45'—C41'—H41'126.3
B3—C1—B2123.39 (16)C45'—C41'—C42'107.48 (17)
B3—C1—B576.83 (13)C45'—C41'—Co4'71.13 (11)
B3—C1—Co472.33 (10)Co4'—C41'—H41'126.3
B5—C1—Co4107.46 (11)C41'—C42'—H42'126.0
C1'—C1—B2117.13 (15)C41'—C42'—C43'107.92 (18)
C1'—C1—B3119.44 (16)C41'—C42'—Co4'70.90 (11)
C1'—C1—B5120.58 (14)C43'—C42'—H42'126.0
C1'—C1—Co4131.87 (12)C43'—C42'—Co4'69.91 (11)
H8A—C8—H8B109.2Co4'—C42'—H42'126.0
C19—C8—H8A111.3C42'—C43'—H43'125.8
C19—C8—H8B111.3C42'—C43'—Co4'69.20 (11)
C3S—C8—H8A111.3C44'—C43'—C42'108.31 (16)
C3S—C8—H8B111.3C44'—C43'—H43'125.8
C3S—C8—C19102.1 (6)C44'—C43'—Co4'71.45 (11)
B6—C12—B1063.90 (13)Co4'—C43'—H43'125.8
B6—C12—B11113.99 (16)C43'—C44'—H44'126.3
B6—C12—B13117.59 (16)C43'—C44'—C45'107.48 (17)
B6—C12—H12116.1 (15)C43'—C44'—Co4'68.64 (11)
B9—C12—B663.54 (13)C45'—C44'—H44'126.3
B9—C12—B10116.13 (16)C45'—C44'—Co4'70.47 (10)
B9—C12—B1162.29 (14)Co4'—C44'—H44'126.3
B9—C12—B13117.52 (17)C41'—C45'—C44'108.80 (17)
B9—C12—H12116.8 (14)C41'—C45'—H45'125.6
B10—C12—B11112.63 (17)C41'—C45'—Co4'69.13 (10)
B10—C12—H12117.3 (14)C44'—C45'—H45'125.6
B11—C12—H12120.3 (14)C44'—C45'—Co4'69.71 (10)
B13—C12—B1062.64 (14)Co4'—C45'—H45'125.6
B13—C12—B1163.12 (14)B2'—Co4'—B3'76.44 (8)
B13—C12—H12115.5 (15)B6'—Co4'—B2'49.20 (8)
C8—C19—H19C109.3B6'—Co4'—B3'102.13 (8)
C8—C19—H19D109.3B6'—Co4'—B7'88.47 (8)
H19C—C19—H19D108.0B7'—Co4'—B2'101.78 (8)
H19A—C19—H19B109.3B7'—Co4'—B3'48.79 (8)
C4S—C19—H19A111.4B10'—Co4'—B2'91.27 (8)
C4S—C19—H19B111.4B10'—Co4'—B3'90.41 (8)
O1S—C19—C8111.5 (4)B10'—Co4'—B6'49.87 (8)
O1S—C19—H19C109.3B10'—Co4'—B7'48.81 (8)
O1S—C19—H19D109.3C1'—Co4'—B2'42.26 (7)
O1S—C19—H19A111.4C1'—Co4'—B3'41.81 (7)
O1S—C19—H19B111.4C1'—Co4'—B6'87.18 (8)
O1S—C19—C4S101.7 (4)C1'—Co4'—B7'86.40 (7)
C42—C41—H41126.3C1'—Co4'—B10'110.09 (8)
C42—C41—C45107.38 (18)C41'—Co4'—B2'144.78 (8)
C42—C41—Co470.84 (11)C41'—Co4'—B3'96.33 (8)
C45—C41—H41126.3C41'—Co4'—B6'160.17 (8)
C45—C41—Co468.43 (11)C41'—Co4'—B7'98.43 (8)
Co4—C41—H41126.3C41'—Co4'—B10'123.54 (8)
C41—C42—H42125.5C41'—Co4'—C1'111.69 (7)
C41—C42—C43108.97 (17)C41'—Co4'—C44'67.52 (8)
C41—C42—Co469.59 (11)C41'—Co4'—C45'39.74 (7)
C43—C42—H42125.5C42'—Co4'—B2'163.89 (8)
C43—C42—Co469.08 (11)C42'—Co4'—B3'119.67 (8)
Co4—C42—H42125.5C42'—Co4'—B6'121.52 (8)
C42—C43—H43126.3C42'—Co4'—B7'90.25 (8)
C42—C43—Co471.04 (11)C42'—Co4'—B10'88.65 (8)
C44—C43—C42107.42 (19)C42'—Co4'—C1'151.03 (7)
C44—C43—H43126.3C42'—Co4'—C41'40.47 (7)
C44—C43—Co468.65 (11)C42'—Co4'—C43'40.89 (8)
Co4—C43—H43126.3C42'—Co4'—C44'67.83 (8)
C43—C44—H44126.1C42'—Co4'—C45'67.18 (8)
C43—C44—C45107.85 (18)C43'—Co4'—B2'123.00 (8)
C43—C44—Co470.96 (11)C43'—Co4'—B3'160.56 (8)
C45—C44—H44126.1C43'—Co4'—B6'92.37 (8)
C45—C44—Co469.63 (11)C43'—Co4'—B7'119.83 (8)
Co4—C44—H44126.1C43'—Co4'—B10'89.12 (8)
C41—C45—C44108.36 (18)C43'—Co4'—C1'153.76 (8)
C41—C45—H45125.8C43'—Co4'—C41'68.04 (8)
C41—C45—Co471.33 (11)C43'—Co4'—C44'39.91 (8)
C44—C45—H45125.8C43'—Co4'—C45'66.95 (8)
C44—C45—Co469.49 (11)C44'—Co4'—B2'99.16 (8)
Co4—C45—H45125.8C44'—Co4'—B3'145.78 (8)
B3—Co4—B276.42 (8)C44'—Co4'—B6'99.79 (8)
B6—Co4—B248.91 (8)C44'—Co4'—B7'157.80 (8)
B6—Co4—B3102.16 (9)C44'—Co4'—B10'123.77 (8)
B6—Co4—B788.59 (9)C44'—Co4'—C1'114.37 (7)
B7—Co4—B2101.73 (8)C44'—Co4'—C45'39.81 (7)
B7—Co4—B348.96 (8)C45'—Co4'—B2'109.42 (8)
B10—Co4—B291.03 (8)C45'—Co4'—B3'108.88 (7)
B10—Co4—B390.53 (9)C45'—Co4'—B6'136.14 (8)
B10—Co4—B649.94 (9)C45'—Co4'—B7'135.37 (7)
B10—Co4—B748.83 (9)C45'—Co4'—B10'154.23 (8)
C1—Co4—B242.27 (8)C45'—Co4'—C1'95.66 (7)
C1—Co4—B341.76 (7)C2A—C3A—H3AB111.0
C1—Co4—B686.99 (8)C2A—C3A—H3AA111.0
C1—Co4—B786.46 (8)C2A—C3A—H3AD113.0
C1—Co4—B10109.98 (8)C2A—C3A—H3AC113.0
C41—Co4—B298.77 (8)C2A—C3A—C4A93.8 (12)
C41—Co4—B3146.48 (8)H3AB—C3A—H3AA109.0
C41—Co4—B698.72 (9)H3AD—C3A—H3AC110.4
C41—Co4—B7157.85 (8)C4A—C3A—H3AD113.0
C41—Co4—B10122.91 (9)C4A—C3A—H3AC113.0
C41—Co4—C1114.64 (7)C4B—C3A—C2A103.7 (3)
C41—Co4—C4239.57 (8)C4B—C3A—H3AB111.0
C42—Co4—B2109.01 (8)C4B—C3A—H3AA111.0
C42—Co4—B3109.88 (8)C3A—C4A—H4AA111.7
C42—Co4—B6134.75 (9)C3A—C4A—H4AB111.7
C42—Co4—B7136.61 (9)H4AA—C4A—H4AB109.5
C42—Co4—B10153.94 (8)C5A—C4A—C3A100.3 (9)
C42—Co4—C196.07 (7)C5A—C4A—H4AA111.7
C43—Co4—B2144.49 (8)C5A—C4A—H4AB111.7
C43—Co4—B396.92 (8)C4A—C5A—H5AB114.2
C43—Co4—B6159.86 (9)C4A—C5A—H5AA114.1
C43—Co4—B799.29 (9)H5AB—C5A—H5AA111.3
C43—Co4—B10124.20 (8)O1A—C5A—C4A87.0 (14)
C43—Co4—C1111.84 (7)O1A—C5A—H5AB114.1
C43—Co4—C4167.56 (8)O1A—C5A—H5AA114.1
C43—Co4—C4239.88 (8)C2A—O1A—C5A105.9 (3)
C44—Co4—B2163.92 (9)C5B—O1A—C2A105.8 (9)
C44—Co4—B3119.66 (8)C3A—C4B—H4BA112.7
C44—Co4—B6121.81 (9)C3A—C4B—H4BB112.7
C44—Co4—B790.28 (8)C3A—C4B—C5B95.4 (12)
C44—Co4—B1088.90 (8)H4BA—C4B—H4BB110.1
C44—Co4—C1150.96 (8)C5B—C4B—H4BA112.7
C44—Co4—C4168.06 (8)C5B—C4B—H4BB112.7
C44—Co4—C4267.20 (8)O1A—C5B—C4B106.9 (14)
C44—Co4—C4340.39 (8)O1A—C5B—H5BA110.3
C44—Co4—C4540.88 (9)O1A—C5B—H5BB110.3
C45—Co4—B2123.04 (9)C4B—C5B—H5BA110.3
C45—Co4—B3160.52 (8)C4B—C5B—H5BB110.3
C45—Co4—B691.96 (9)H5BA—C5B—H5BB108.6
C45—Co4—B7119.16 (8)H2SA—C2S—H2SB108.5
C45—Co4—B1088.38 (9)C3S—C2S—H2SA110.2
C45—Co4—C1154.35 (8)C3S—C2S—H2SB110.2
C45—Co4—C4140.24 (8)O1S—C2S—H2SA110.2
C45—Co4—C4266.92 (8)O1S—C2S—H2SB110.2
C45—Co4—C4367.99 (8)O1S—C2S—C3S107.6 (2)
B5'—B2'—H2'128.2 (12)C8—C3S—H3SC110.5
B5'—B2'—Co4'96.23 (11)C8—C3S—H3SD110.5
B6'—B2'—H2'116.2 (11)C2S—C3S—C8106.4 (5)
B6'—B2'—B5'99.73 (13)C2S—C3S—H3SA111.1
B6'—B2'—Co4'63.22 (10)C2S—C3S—H3SB111.1
B9'—B2'—H2'109.4 (12)C2S—C3S—H3SC110.5
B9'—B2'—B5'58.91 (11)C2S—C3S—H3SD110.5
B9'—B2'—B6'58.46 (12)H3SA—C3S—H3SB109.1
B9'—B2'—Co4'108.19 (12)H3SC—C3S—H3SD108.6
C1'—B2'—H2'120.2 (11)C4S—C3S—C2S103.1 (3)
C1'—B2'—B5'58.20 (11)C4S—C3S—H3SA111.1
C1'—B2'—B6'120.42 (16)C4S—C3S—H3SB111.1
C1'—B2'—B9'115.21 (15)C19—C4S—H4SA111.3
C1'—B2'—Co4'65.50 (10)C19—C4S—H4SB111.3
Co4'—B2'—H2'132.3 (12)C3S—C4S—C19102.1 (4)
B5'—B3'—H3'132.2 (12)C3S—C4S—H4SA111.3
B5'—B3'—Co4'94.19 (10)C3S—C4S—H4SB111.3
B7'—B3'—H3'115.9 (11)H4SA—C4S—H4SB109.2
B7'—B3'—B5'99.36 (13)C19—O1S—C2S108.2 (2)
B7'—B3'—B8'58.89 (12)
B2—B5—B9—B646.28 (14)Co4—C43—C44—C4560.13 (14)
B2—B5—B9—B11148.31 (17)Co4—C44—C45—C4161.03 (14)
B2—B5—B9—C12107.49 (17)B2'—B5'—B9'—B6'46.88 (14)
B2—B5—B11—B8113.77 (15)B2'—B5'—B9'—B11'148.60 (16)
B2—B5—B11—B926.76 (14)B2'—B5'—B9'—C12'107.90 (16)
B2—B5—B11—B1374.75 (19)B2'—B5'—B11'—B8'114.12 (15)
B2—B5—B11—C1213.28 (19)B2'—B5'—B11'—B9'26.42 (14)
B2—B5—C1—B3131.21 (16)B2'—B5'—B11'—B13'75.32 (17)
B2—B5—C1—Co464.81 (11)B2'—B5'—B11'—C12'13.47 (18)
B2—B5—C1—C1'112.17 (19)B2'—B5'—C1'—C1112.17 (18)
B2—B6—B9—B549.36 (14)B2'—B5'—C1'—B3'131.44 (15)
B2—B6—B9—B11111.25 (18)B2'—B5'—C1'—Co4'64.74 (11)
B2—B6—B9—C12146.56 (17)B2'—B6'—B9'—B5'49.58 (13)
B2—B6—B10—B74.2 (2)B2'—B6'—B9'—B11'111.36 (15)
B2—B6—B10—B1368.0 (2)B2'—B6'—B9'—C12'146.71 (14)
B2—B6—B10—C1297.76 (19)B2'—B6'—B10'—B7'4.3 (2)
B2—B6—B10—Co442.71 (15)B2'—B6'—B10'—B13'68.20 (19)
B2—B6—C12—B930.83 (16)B2'—B6'—B10'—C12'98.14 (17)
B2—B6—C12—B10111.52 (18)B2'—B6'—B10'—Co4'42.60 (14)
B2—B6—C12—B117.0 (2)B2'—B6'—C12'—B9'30.70 (14)
B2—B6—C12—B1378.0 (2)B2'—B6'—C12'—B10'111.55 (16)
B2—B9—B11—B532.62 (17)B2'—B6'—C12'—B11'7.0 (2)
B2—B9—B11—B87.8 (3)B2'—B6'—C12'—B13'77.9 (2)
B2—B9—B11—B1372.3 (2)B2'—B9'—B11'—B5'32.30 (16)
B2—B9—B11—C12100.44 (19)B2'—B9'—B11'—B8'8.3 (2)
B2—B9—C12—B631.04 (16)B2'—B9'—B11'—B13'72.9 (2)
B2—B9—C12—B106.6 (3)B2'—B9'—B11'—C12'101.01 (18)
B2—B9—C12—B11109.72 (19)B2'—B9'—C12'—B6'31.22 (14)
B2—B9—C12—B1377.9 (2)B2'—B9'—C12'—B10'6.6 (2)
B2—C1—C1'—B2'42.8 (2)B2'—B9'—C12'—B11'109.52 (16)
B2—C1—C1'—B3'134.67 (18)B2'—B9'—C12'—B13'77.83 (19)
B2—C1—C1'—B5'43.2 (2)B3'—B5'—B9'—B2'59.48 (15)
B2—C1—C1'—Co4'132.84 (16)B3'—B5'—B9'—B6'12.6 (2)
B3—B5—B9—B259.06 (16)B3'—B5'—B9'—B11'89.13 (17)
B3—B5—B9—B612.8 (2)B3'—B5'—B9'—C12'48.43 (19)
B3—B5—B9—B1189.24 (17)B3'—B5'—B11'—B8'25.81 (13)
B3—B5—B9—C1248.4 (2)B3'—B5'—B11'—B9'114.72 (15)
B3—B5—B11—B825.70 (14)B3'—B5'—B11'—B13'12.98 (18)
B3—B5—B11—B9114.84 (15)B3'—B5'—B11'—C12'74.83 (16)
B3—B5—B11—B1313.3 (2)B3'—B5'—C1'—C1116.39 (17)
B3—B5—B11—C1274.80 (18)B3'—B5'—C1'—B2'131.44 (15)
B3—B5—C1—B2131.21 (16)B3'—B5'—C1'—Co4'66.70 (11)
B3—B5—C1—Co466.40 (11)B3'—B7'—B8'—B5'50.99 (13)
B3—B5—C1—C1'116.62 (19)B3'—B7'—B8'—B11'112.16 (16)
B3—B7—B8—B550.70 (14)B3'—B7'—B8'—B13'151.95 (15)
B3—B7—B8—B11112.30 (17)B3'—B7'—B10'—B6'5.3 (2)
B3—B7—B8—B13151.35 (17)B3'—B7'—B10'—B13'103.35 (18)
B3—B7—B10—B65.6 (2)B3'—B7'—B10'—C12'66.2 (2)
B3—B7—B10—B13103.48 (18)B3'—B7'—B10'—Co4'40.88 (14)
B3—B7—B10—C1266.7 (2)B3'—B7'—B13'—B8'26.70 (14)
B3—B7—B10—Co440.58 (14)B3'—B7'—B13'—B10'110.04 (17)
B3—B7—B13—B827.30 (16)B3'—B7'—B13'—B11'11.4 (2)
B3—B7—B13—B10109.33 (18)B3'—B7'—B13'—C12'72.95 (18)
B3—B7—B13—B1110.1 (2)B3'—B8'—B11'—B5'32.97 (16)
B3—B7—B13—C1272.0 (2)B3'—B8'—B11'—B9'7.0 (2)
B3—B8—B11—B532.83 (17)B3'—B8'—B11'—B13'104.34 (18)
B3—B8—B11—B96.9 (3)B3'—B8'—B11'—C12'68.4 (2)
B3—B8—B11—B13104.17 (18)B3'—B8'—B13'—B7'26.70 (15)
B3—B8—B11—C1268.3 (2)B3'—B8'—B13'—B10'12.2 (2)
B3—B8—B13—B727.33 (16)B3'—B8'—B13'—B11'109.73 (17)
B3—B8—B13—B1011.8 (2)B3'—B8'—B13'—C12'73.62 (19)
B3—B8—B13—B11110.06 (18)B5'—B2'—B6'—B9'43.95 (12)
B3—B8—B13—C1273.8 (2)B5'—B2'—B6'—B10'50.61 (19)
B3—C1—C1'—B2'134.97 (17)B5'—B2'—B6'—C12'14.05 (17)
B3—C1—C1'—B3'47.5 (2)B5'—B2'—B6'—Co4'92.10 (10)
B3—C1—C1'—B5'139.00 (16)B5'—B2'—B9'—B6'126.99 (15)
B3—C1—C1'—Co4'45.0 (2)B5'—B2'—B9'—B11'29.98 (15)
C2A—C3A—C4A—C5A48 (2)B5'—B2'—B9'—C12'96.65 (16)
C2A—C3A—C4B—C5B40.2 (10)B5'—B2'—C1'—C1116.35 (18)
C2A—O1A—C5B—C4B34 (2)B5'—B2'—C1'—B3'61.04 (18)
B5—B2—B6—B943.71 (13)B5'—B2'—C1'—Co4'115.01 (11)
B5—B2—B6—B1050.4 (2)B5'—B3'—B7'—B8'44.26 (12)
B5—B2—B6—C1213.91 (19)B5'—B3'—B7'—B10'50.28 (18)
B5—B2—B6—Co491.96 (11)B5'—B3'—B7'—B13'17.94 (17)
B5—B2—B9—B6127.15 (15)B5'—B3'—B7'—Co4'90.18 (10)
B5—B2—B9—B1130.32 (16)B5'—B3'—B8'—B7'126.22 (13)
B5—B2—B9—C1296.69 (18)B5'—B3'—B8'—B11'30.04 (15)
B5—B2—C1—B361.32 (17)B5'—B3'—B8'—B13'99.79 (16)
B5—B2—C1—Co4115.02 (10)B5'—B3'—C1'—C1117.84 (18)
B5—B2—C1—C1'116.39 (17)B5'—B3'—C1'—B2'59.50 (17)
B5—B3—B7—B843.78 (13)B5'—B3'—C1'—Co4'113.30 (10)
B5—B3—B7—B1050.92 (19)B5'—B8'—B11'—B9'39.93 (16)
B5—B3—B7—B1316.9 (2)B5'—B8'—B11'—B13'137.31 (15)
B5—B3—B7—Co490.67 (11)B5'—B8'—B11'—C12'101.35 (16)
B5—B3—B8—B7126.74 (15)B5'—B8'—B13'—B7'99.28 (15)
B5—B3—B8—B1129.99 (15)B5'—B8'—B13'—B10'60.39 (19)
B5—B3—B8—B1399.73 (18)B5'—B8'—B13'—B11'37.16 (14)
B5—B3—C1—B259.76 (17)B5'—B8'—B13'—C12'1.05 (19)
B5—B3—C1—Co4113.45 (11)B5'—B9'—B11'—B8'40.60 (16)
B5—B3—C1—C1'117.90 (18)B5'—B9'—B11'—B13'105.18 (16)
B5—B8—B11—B939.73 (16)B5'—B9'—B11'—C12'133.31 (15)
B5—B8—B11—B13137.00 (16)B5'—B9'—C12'—B6'100.80 (15)
B5—B8—B11—C12101.10 (17)B5'—B9'—C12'—B10'63.02 (18)
B5—B8—B13—B799.89 (16)B5'—B9'—C12'—B11'39.94 (13)
B5—B8—B13—B1060.76 (19)B5'—B9'—C12'—B13'8.2 (2)
B5—B8—B13—B1137.50 (14)B5'—B11'—B13'—B7'2.49 (19)
B5—B8—B13—C121.19 (19)B5'—B11'—B13'—B8'41.66 (14)
B5—B9—B11—B840.42 (16)B5'—B11'—B13'—B10'60.69 (17)
B5—B9—B11—B13104.96 (17)B5'—B11'—B13'—C12'96.83 (16)
B5—B9—B11—C12133.06 (16)B5'—B11'—C12'—B6'4.9 (2)
B5—B9—C12—B6100.57 (16)B5'—B11'—C12'—B9'43.11 (14)
B5—B9—C12—B1062.9 (2)B5'—B11'—C12'—B10'65.47 (19)
B5—B9—C12—B1140.19 (14)B5'—B11'—C12'—B13'105.36 (16)
B5—B9—C12—B138.3 (2)B6'—B2'—B9'—B5'126.99 (15)
B5—B11—B13—B73.4 (2)B6'—B2'—B9'—B11'97.01 (18)
B5—B11—B13—B841.81 (16)B6'—B2'—B9'—C12'30.34 (14)
B5—B11—B13—B1060.3 (2)B6'—B2'—C1'—C1161.32 (16)
B5—B11—B13—C1296.55 (18)B6'—B2'—C1'—B3'21.3 (3)
B5—B11—C12—B64.8 (2)B6'—B2'—C1'—B5'82.33 (17)
B5—B11—C12—B943.15 (15)B6'—B2'—C1'—Co4'32.68 (14)
B5—B11—C12—B1065.5 (2)B6'—B9'—B11'—B5'98.62 (15)
B5—B11—C12—B13105.20 (17)B6'—B9'—B11'—B8'58.0 (2)
B5—C1—C1'—B2'43.3 (2)B6'—B9'—B11'—B13'6.56 (19)
B5—C1—C1'—B3'139.22 (17)B6'—B9'—B11'—C12'34.69 (13)
B5—C1—C1'—B5'129.30 (17)B6'—B9'—C12'—B10'37.78 (15)
B5—C1—C1'—Co4'46.7 (2)B6'—B9'—C12'—B11'140.74 (15)
B6—B2—B9—B5127.15 (15)B6'—B9'—C12'—B13'109.05 (17)
B6—B2—B9—B1196.8 (2)B6'—B10'—B13'—B7'107.86 (16)
B6—B2—B9—C1230.46 (16)B6'—B10'—B13'—B8'68.61 (18)
B6—B2—C1—B321.1 (3)B6'—B10'—B13'—B11'6.84 (18)
B6—B2—C1—B582.43 (18)B6'—B10'—B13'—C12'29.41 (13)
B6—B2—C1—Co432.59 (15)B6'—B10'—C12'—B9'37.51 (15)
B6—B2—C1—C1'161.17 (16)B6'—B10'—C12'—B11'106.46 (16)
B6—B9—B11—B598.26 (17)B6'—B10'—C12'—B13'146.49 (15)
B6—B9—B11—B857.8 (2)B7'—B3'—B8'—B5'126.22 (13)
B6—B9—B11—B136.7 (2)B7'—B3'—B8'—B11'96.18 (18)
B6—B9—B11—C1234.80 (15)B7'—B3'—B8'—B13'26.43 (15)
B6—B9—C12—B1037.67 (17)B7'—B3'—C1'—C1162.26 (16)
B6—B9—C12—B11140.76 (17)B7'—B3'—C1'—B2'20.4 (3)
B6—B9—C12—B13108.90 (19)B7'—B3'—C1'—B5'79.90 (18)
B6—B10—B13—B7108.00 (17)B7'—B3'—C1'—Co4'33.40 (15)
B6—B10—B13—B868.7 (2)B7'—B8'—B11'—B5'98.59 (15)
B6—B10—B13—B116.8 (2)B7'—B8'—B11'—B9'58.7 (2)
B6—B10—B13—C1229.48 (15)B7'—B8'—B11'—B13'38.72 (14)
B6—B10—C12—B937.53 (17)B7'—B8'—B11'—C12'2.77 (19)
B6—B10—C12—B11106.64 (18)B7'—B8'—B13'—B10'38.88 (14)
B6—B10—C12—B13146.53 (17)B7'—B8'—B13'—B11'136.43 (15)
B7—B3—B8—B5126.74 (15)B7'—B8'—B13'—C12'100.33 (16)
B7—B3—B8—B1196.75 (19)B7'—B10'—B13'—B8'39.25 (15)
B7—B3—B8—B1327.01 (16)B7'—B10'—B13'—B11'101.02 (15)
B7—B3—C1—B219.8 (3)B7'—B10'—B13'—C12'137.27 (16)
B7—B3—C1—B579.52 (18)B7'—B10'—C12'—B6'109.22 (15)
B7—B3—C1—Co433.93 (15)B7'—B10'—C12'—B9'71.71 (18)
B7—B3—C1—C1'162.58 (16)B7'—B10'—C12'—B11'2.8 (2)
B7—B8—B11—B598.93 (16)B7'—B10'—C12'—B13'37.28 (14)
B7—B8—B11—B959.2 (2)B7'—B13'—C12'—B6'3.9 (2)
B7—B8—B11—B1338.07 (15)B7'—B13'—C12'—B9'68.8 (2)
B7—B8—B11—C122.2 (2)B7'—B13'—C12'—B10'37.97 (14)
B7—B8—B13—B1039.14 (15)B7'—B13'—C12'—B11'100.23 (16)
B7—B8—B13—B11137.39 (17)B8'—B3'—B7'—B10'94.54 (17)
B7—B8—B13—C12101.08 (17)B8'—B3'—B7'—B13'26.31 (14)
B7—B10—B13—B839.29 (15)B8'—B3'—B7'—Co4'134.43 (12)
B7—B10—B13—B11101.21 (17)B8'—B3'—C1'—C1130.78 (17)
B7—B10—B13—C12137.49 (16)B8'—B3'—C1'—B2'46.6 (2)
B7—B10—C12—B6109.52 (16)B8'—B3'—C1'—B5'12.94 (15)
B7—B10—C12—B972.0 (2)B8'—B3'—C1'—Co4'100.36 (14)
B7—B10—C12—B112.9 (2)B8'—B5'—B9'—B2'115.72 (15)
B7—B10—C12—B1337.01 (15)B8'—B5'—B9'—B6'68.84 (17)
B7—B13—C12—B64.1 (2)B8'—B5'—B9'—B11'32.88 (14)
B7—B13—C12—B968.7 (2)B8'—B5'—B9'—C12'7.82 (18)
B7—B13—C12—B1038.10 (15)B8'—B5'—B11'—B9'140.53 (16)
B7—B13—C12—B11100.32 (17)B8'—B5'—B11'—B13'38.79 (14)
B8—B3—B7—B1094.70 (18)B8'—B5'—B11'—C12'100.65 (16)
B8—B3—B7—B1326.90 (16)B8'—B5'—C1'—C1127.75 (15)
B8—B3—B7—Co4134.46 (13)B8'—B5'—C1'—B2'120.08 (15)
B8—B3—C1—B246.9 (2)B8'—B5'—C1'—B3'11.36 (13)
B8—B3—C1—B512.89 (16)B8'—B5'—C1'—Co4'55.34 (13)
B8—B3—C1—Co4100.56 (15)B8'—B7'—B10'—B6'60.02 (19)
B8—B3—C1—C1'130.79 (17)B8'—B7'—B10'—B13'38.04 (14)
B8—B5—B9—B2115.46 (15)B8'—B7'—B10'—C12'0.89 (19)
B8—B5—B9—B669.18 (17)B8'—B7'—B10'—Co4'106.19 (13)
B8—B5—B9—B1132.85 (14)B8'—B7'—B13'—B10'136.74 (16)
B8—B5—B9—C127.97 (18)B8'—B7'—B13'—B11'38.09 (13)
B8—B5—B11—B9140.53 (16)B8'—B7'—B13'—C12'99.65 (16)
B8—B5—B11—B1339.02 (15)B8'—B11'—B13'—B7'39.17 (14)
B8—B5—B11—C12100.50 (17)B8'—B11'—B13'—B10'102.35 (15)
B8—B5—C1—B2119.86 (15)B8'—B11'—B13'—C12'138.49 (16)
B8—B5—C1—B311.36 (14)B8'—B11'—C12'—B6'73.91 (19)
B8—B5—C1—Co455.04 (14)B8'—B11'—C12'—B9'112.08 (16)
B8—B5—C1—C1'127.98 (16)B8'—B11'—C12'—B10'3.5 (2)
B8—B7—B10—B659.8 (2)B8'—B11'—C12'—B13'36.39 (14)
B8—B7—B10—B1338.14 (14)B8'—B13'—C12'—B6'67.9 (2)
B8—B7—B10—C121.38 (19)B8'—B13'—C12'—B9'4.8 (2)
B8—B7—B10—Co4105.92 (13)B8'—B13'—C12'—B10'102.01 (16)
B8—B7—B13—B10136.63 (16)B8'—B13'—C12'—B11'36.18 (14)
B8—B7—B13—B1137.40 (15)B9'—B2'—B6'—B10'94.55 (18)
B8—B7—B13—C1299.35 (17)B9'—B2'—B6'—C12'29.89 (14)
B8—B11—B13—B738.37 (16)B9'—B2'—B6'—Co4'136.05 (12)
B8—B11—B13—B10102.08 (17)B9'—B2'—C1'—C1131.89 (17)
B8—B11—B13—C12138.37 (17)B9'—B2'—C1'—B3'45.5 (2)
B8—B11—C12—B673.6 (2)B9'—B2'—C1'—B5'15.54 (16)
B8—B11—C12—B9111.87 (17)B9'—B2'—C1'—Co4'99.47 (15)
B8—B11—C12—B103.2 (2)B9'—B5'—B11'—B8'140.53 (16)
B8—B11—C12—B1336.48 (15)B9'—B5'—B11'—B13'101.74 (16)
B8—B13—C12—B668.1 (2)B9'—B5'—B11'—C12'39.89 (14)
B8—B13—C12—B94.7 (2)B9'—B5'—C1'—C1125.89 (16)
B8—B13—C12—B10102.11 (17)B9'—B5'—C1'—B2'13.73 (14)
B8—B13—C12—B1136.31 (15)B9'—B5'—C1'—B3'117.71 (15)
B9—B2—B6—B1094.12 (19)B9'—B5'—C1'—Co4'51.01 (14)
B9—B2—B6—C1229.80 (15)B9'—B6'—B10'—B7'60.84 (19)
B9—B2—B6—Co4135.67 (14)B9'—B6'—B10'—B13'3.03 (18)
B9—B2—C1—B346.2 (2)B9'—B6'—B10'—C12'32.96 (13)
B9—B2—C1—B515.10 (16)B9'—B6'—B10'—Co4'107.77 (13)
B9—B2—C1—Co499.93 (15)B9'—B6'—C12'—B10'142.25 (14)
B9—B2—C1—C1'131.49 (17)B9'—B6'—C12'—B11'37.72 (15)
B9—B5—B11—B8140.53 (16)B9'—B6'—C12'—B13'108.58 (18)
B9—B5—B11—B13101.51 (19)B9'—B11'—B13'—B7'71.43 (17)
B9—B5—B11—C1240.04 (14)B9'—B11'—B13'—B8'110.60 (16)
B9—B5—C1—B213.46 (14)B9'—B11'—B13'—B10'8.25 (18)
B9—B5—C1—B3117.76 (15)B9'—B11'—B13'—C12'27.89 (13)
B9—B5—C1—Co451.36 (14)B9'—B11'—C12'—B6'38.16 (15)
B9—B5—C1—C1'125.62 (17)B9'—B11'—C12'—B10'108.57 (17)
B9—B6—B10—B760.9 (2)B9'—B11'—C12'—B13'148.46 (15)
B9—B6—B10—B132.8 (2)B10'—B6'—B9'—B2'113.53 (15)
B9—B6—B10—C1232.61 (15)B10'—B6'—B9'—B5'63.96 (17)
B9—B6—B10—Co4107.85 (15)B10'—B6'—B9'—B11'2.17 (18)
B9—B6—C12—B10142.34 (17)B10'—B6'—B9'—C12'33.17 (13)
B9—B6—C12—B1137.81 (16)B10'—B6'—C12'—B9'142.25 (14)
B9—B6—C12—B13108.8 (2)B10'—B6'—C12'—B11'104.53 (16)
B9—B11—B13—B772.0 (2)B10'—B6'—C12'—B13'33.67 (16)
B9—B11—B13—B8110.40 (18)B10'—B7'—B8'—B3'113.35 (15)
B9—B11—B13—B108.3 (2)B10'—B7'—B8'—B5'62.36 (17)
B9—B11—B13—C1227.96 (15)B10'—B7'—B8'—B11'1.18 (19)
B9—B11—C12—B638.31 (16)B10'—B7'—B8'—B13'38.60 (14)
B9—B11—C12—B10108.67 (18)B10'—B7'—B13'—B8'136.74 (16)
B9—B11—C12—B13148.35 (17)B10'—B7'—B13'—B11'98.65 (16)
B10—B6—B9—B2113.63 (17)B10'—B7'—B13'—C12'37.09 (14)
B10—B6—B9—B564.27 (18)B10'—B13'—C12'—B6'34.12 (16)
B10—B6—B9—B112.4 (2)B10'—B13'—C12'—B9'106.77 (17)
B10—B6—B9—C1232.93 (15)B10'—B13'—C12'—B11'138.20 (15)
B10—B6—C12—B9142.34 (17)B11'—B5'—B9'—B2'148.60 (16)
B10—B6—C12—B11104.53 (18)B11'—B5'—B9'—B6'101.72 (17)
B10—B6—C12—B1333.55 (17)B11'—B5'—B9'—C12'40.70 (14)
B10—B7—B8—B3112.80 (16)B11'—B5'—C1'—C1178.82 (18)
B10—B7—B8—B562.09 (18)B11'—B5'—C1'—B2'69.0 (2)
B10—B7—B8—B110.5 (2)B11'—B5'—C1'—B3'62.4 (2)
B10—B7—B8—B1338.55 (15)B11'—B5'—C1'—Co4'4.3 (2)
B10—B7—B13—B8136.63 (16)B11'—B8'—B13'—B7'136.43 (15)
B10—B7—B13—B1199.24 (18)B11'—B8'—B13'—B10'97.55 (16)
B10—B7—B13—C1237.29 (15)B11'—B8'—B13'—C12'36.11 (14)
B10—B13—C12—B633.97 (17)B11'—B9'—C12'—B6'140.74 (15)
B10—B13—C12—B9106.83 (19)B11'—B9'—C12'—B10'102.97 (16)
B10—B13—C12—B11138.42 (16)B11'—B9'—C12'—B13'31.69 (16)
B11—B5—B9—B2148.31 (17)B11'—B13'—C12'—B6'104.08 (18)
B11—B5—B9—B6102.03 (17)B11'—B13'—C12'—B9'31.43 (16)
B11—B5—B9—C1240.82 (15)B11'—B13'—C12'—B10'138.20 (15)
B11—B5—C1—B269.1 (2)B13'—B7'—B8'—B3'151.95 (15)
B11—B5—C1—B362.2 (2)B13'—B7'—B8'—B5'100.96 (15)
B11—B5—C1—Co44.2 (3)B13'—B7'—B8'—B11'39.78 (15)
B11—B5—C1—C1'178.8 (2)B13'—B7'—B10'—B6'98.06 (18)
B11—B8—B13—B7137.39 (17)B13'—B7'—B10'—C12'37.14 (14)
B11—B8—B13—B1098.25 (18)B13'—B7'—B10'—Co4'144.23 (14)
B11—B8—B13—C1236.31 (15)B13'—B8'—B11'—B5'137.31 (15)
B11—B9—C12—B6140.76 (17)B13'—B8'—B11'—B9'97.37 (18)
B11—B9—C12—B10103.09 (19)B13'—B8'—B11'—C12'35.95 (14)
B11—B9—C12—B1331.85 (17)B13'—B10'—C12'—B6'146.49 (15)
B11—B13—C12—B6104.45 (19)B13'—B10'—C12'—B9'108.99 (17)
B11—B13—C12—B931.59 (17)B13'—B10'—C12'—B11'40.03 (15)
B11—B13—C12—B10138.42 (16)B13'—B11'—C12'—B6'110.30 (17)
B13—B7—B8—B3151.35 (17)B13'—B11'—C12'—B9'148.46 (15)
B13—B7—B8—B5100.65 (17)B13'—B11'—C12'—B10'39.89 (15)
B13—B7—B8—B1139.05 (15)C1'—B2'—B6'—B9'102.66 (18)
B13—B7—B10—B697.92 (18)C1'—B2'—B6'—B10'8.1 (2)
B13—B7—B10—C1236.75 (14)C1'—B2'—B6'—C12'72.8 (2)
B13—B7—B10—Co4144.06 (14)C1'—B2'—B6'—Co4'33.39 (15)
B13—B8—B11—B5137.00 (16)C1'—B2'—B9'—B5'15.42 (16)
B13—B8—B11—B997.27 (19)C1'—B2'—B9'—B6'111.57 (18)
B13—B8—B11—C1235.90 (15)C1'—B2'—B9'—B11'14.6 (2)
B13—B10—C12—B6146.53 (17)C1'—B2'—B9'—C12'81.2 (2)
B13—B10—C12—B9109.0 (2)C1'—B3'—B7'—B8'100.66 (19)
B13—B10—C12—B1139.89 (16)C1'—B3'—B7'—B10'6.1 (3)
B13—B11—C12—B6110.04 (18)C1'—B3'—B7'—B13'74.3 (2)
B13—B11—C12—B9148.35 (17)C1'—B3'—B7'—Co4'33.77 (15)
B13—B11—C12—B1039.68 (16)C1'—B3'—B8'—B5'12.65 (15)
C1—B2—B6—B9102.5 (2)C1'—B3'—B8'—B7'113.57 (17)
C1—B2—B6—B108.4 (3)C1'—B3'—B8'—B11'17.4 (2)
C1—B2—B6—C1272.7 (2)C1'—B3'—B8'—B13'87.1 (2)
C1—B2—B6—Co433.19 (16)C1'—B5'—B9'—B2'12.49 (13)
C1—B2—B9—B515.02 (15)C1'—B5'—B9'—B6'34.39 (18)
C1—B2—B9—B6112.13 (19)C1'—B5'—B9'—B11'136.11 (17)
C1—B2—B9—B1115.3 (3)C1'—B5'—B9'—C12'95.41 (16)
C1—B2—B9—C1281.7 (2)C1'—B5'—B11'—B8'67.5 (2)
C1—B3—B7—B8100.17 (19)C1'—B5'—B11'—B9'73.0 (2)
C1—B3—B7—B105.5 (3)C1'—B5'—B11'—B13'28.7 (3)
C1—B3—B7—B1373.3 (2)C1'—B5'—B11'—C12'33.1 (3)
C1—B3—B7—Co434.28 (15)C12'—B6'—B9'—B2'146.71 (14)
C1—B3—B8—B512.64 (16)C12'—B6'—B9'—B5'97.13 (15)
C1—B3—B8—B7114.10 (19)C12'—B6'—B9'—B11'35.34 (13)
C1—B3—B8—B1117.3 (2)C12'—B6'—B10'—B7'93.80 (17)
C1—B3—B8—B1387.1 (2)C12'—B6'—B10'—B13'29.93 (13)
C1—B5—B9—B212.20 (13)C12'—B6'—B10'—Co4'140.73 (12)
C1—B5—B9—B634.08 (18)C12'—B9'—B11'—B5'133.31 (15)
C1—B5—B9—B11136.10 (16)C12'—B9'—B11'—B8'92.71 (18)
C1—B5—B9—C1295.29 (16)C12'—B9'—B11'—B13'28.13 (13)
C1—B5—B11—B867.1 (2)C12'—B10'—B13'—B7'137.27 (16)
C1—B5—B11—B973.4 (2)C12'—B10'—B13'—B8'98.02 (17)
C1—B5—B11—B1328.1 (3)C12'—B10'—B13'—B11'36.25 (13)
C1—B5—B11—C1233.4 (3)C12'—B11'—B13'—B7'99.33 (16)
C8—C19—C4S—C3S72.7 (12)C12'—B11'—B13'—B8'138.49 (16)
C8—C19—O1S—C2S9.1 (12)C12'—B11'—B13'—B10'36.15 (13)
C8—C3S—C4S—C1970.5 (11)C41'—C42'—C43'—C44'0.0 (2)
C12—B6—B9—B2146.56 (17)C41'—C42'—C43'—Co4'61.03 (13)
C12—B6—B9—B597.20 (17)C42'—C41'—C45'—C44'0.7 (2)
C12—B6—B9—B1135.31 (15)C42'—C41'—C45'—Co4'59.23 (13)
C12—B6—B10—B793.55 (18)C42'—C43'—C44'—C45'0.4 (2)
C12—B6—B10—B1329.77 (15)C42'—C43'—C44'—Co4'59.62 (13)
C12—B6—B10—Co4140.46 (14)C43'—C44'—C45'—C41'0.7 (2)
C12—B9—B11—B5133.06 (16)C43'—C44'—C45'—Co4'58.87 (13)
C12—B9—B11—B892.64 (19)C45'—C41'—C42'—C43'0.4 (2)
C12—B9—B11—B1328.10 (15)C45'—C41'—C42'—Co4'60.82 (13)
C12—B10—B13—B7137.49 (16)Co4'—B2'—B6'—B9'136.05 (12)
C12—B10—B13—B898.20 (17)Co4'—B2'—B6'—B10'41.50 (13)
C12—B10—B13—B1136.28 (15)Co4'—B2'—B6'—C12'106.16 (14)
C12—B11—B13—B799.99 (18)Co4'—B2'—B9'—B5'86.28 (12)
C12—B11—B13—B8138.37 (17)Co4'—B2'—B9'—B6'40.71 (11)
C12—B11—B13—B1036.29 (15)Co4'—B2'—B9'—B11'56.30 (19)
C19—C8—C3S—C2S14.7 (16)Co4'—B2'—B9'—C12'10.36 (17)
C19—C8—C3S—C4S72.8 (10)Co4'—B2'—C1'—C1128.64 (15)
C41—C42—C43—C441.0 (2)Co4'—B2'—C1'—B3'53.97 (16)
C41—C42—C43—Co458.25 (13)Co4'—B2'—C1'—B5'115.01 (11)
C42—C41—C45—C440.5 (2)Co4'—B3'—B7'—B8'134.43 (12)
C42—C41—C45—Co460.42 (13)Co4'—B3'—B7'—B10'39.89 (14)
C42—C43—C44—C450.6 (2)Co4'—B3'—B7'—B13'108.12 (14)
C42—C43—C44—Co460.77 (13)Co4'—B3'—B8'—B5'83.46 (12)
C43—C44—C45—C410.1 (2)Co4'—B3'—B8'—B7'42.76 (11)
C43—C44—C45—Co460.97 (14)Co4'—B3'—B8'—B11'53.42 (19)
C45—C41—C42—C431.0 (2)Co4'—B3'—B8'—B13'16.33 (19)
C45—C41—C42—Co458.90 (13)Co4'—B3'—C1'—C1128.85 (16)
Co4—B2—B6—B9135.67 (14)Co4'—B3'—C1'—B2'53.81 (16)
Co4—B2—B6—B1041.55 (14)Co4'—B3'—C1'—B5'113.30 (10)
Co4—B2—B6—C12105.87 (16)Co4'—B6'—B9'—B2'44.17 (12)
Co4—B2—B9—B585.90 (13)Co4'—B6'—B9'—B5'5.41 (18)
Co4—B2—B9—B641.26 (13)Co4'—B6'—B9'—B11'67.20 (17)
Co4—B2—B9—B1155.6 (2)Co4'—B6'—B9'—C12'102.54 (14)
Co4—B2—B9—C1210.8 (2)Co4'—B6'—B10'—B7'46.93 (13)
Co4—B2—C1—B353.71 (16)Co4'—B6'—B10'—B13'110.80 (13)
Co4—B2—C1—B5115.02 (10)Co4'—B6'—B10'—C12'140.73 (12)
Co4—B2—C1—C1'128.58 (15)Co4'—B6'—C12'—B9'104.07 (14)
Co4—B3—B7—B8134.46 (13)Co4'—B6'—C12'—B10'38.18 (12)
Co4—B3—B7—B1039.76 (14)Co4'—B6'—C12'—B11'66.36 (18)
Co4—B3—B7—B13107.56 (17)Co4'—B6'—C12'—B13'4.5 (2)
Co4—B3—B8—B583.82 (12)Co4'—B7'—B8'—B3'44.89 (11)
Co4—B3—B8—B742.92 (12)Co4'—B7'—B8'—B5'6.09 (16)
Co4—B3—B8—B1153.83 (19)Co4'—B7'—B8'—B11'67.27 (16)
Co4—B3—B8—B1315.91 (19)Co4'—B7'—B8'—B13'107.05 (14)
Co4—B3—C1—B253.69 (16)Co4'—B7'—B10'—B6'46.17 (13)
Co4—B3—C1—B5113.45 (11)Co4'—B7'—B10'—B13'144.23 (14)
Co4—B3—C1—C1'128.65 (15)Co4'—B7'—B10'—C12'107.08 (14)
Co4—B6—B9—B244.53 (13)Co4'—B7'—B13'—B8'101.23 (14)
Co4—B6—B9—B54.82 (19)Co4'—B7'—B13'—B10'35.51 (13)
Co4—B6—B9—B1166.72 (18)Co4'—B7'—B13'—B11'63.14 (17)
Co4—B6—B9—C12102.02 (16)Co4'—B7'—B13'—C12'1.59 (19)
Co4—B6—B10—B746.91 (14)Co4'—B10'—B13'—B7'36.79 (13)
Co4—B6—B10—B13110.69 (15)Co4'—B10'—B13'—B8'2.5 (2)
Co4—B6—B10—C12140.46 (14)Co4'—B10'—B13'—B11'64.23 (17)
Co4—B6—C12—B9104.05 (16)Co4'—B10'—B13'—C12'100.48 (15)
Co4—B6—C12—B1038.29 (13)Co4'—B10'—C12'—B6'38.20 (12)
Co4—B6—C12—B1166.24 (19)Co4'—B10'—C12'—B9'0.69 (19)
Co4—B6—C12—B134.7 (2)Co4'—B10'—C12'—B11'68.26 (17)
Co4—B7—B8—B344.53 (13)Co4'—B10'—C12'—B13'108.30 (14)
Co4—B7—B8—B56.17 (18)Co4'—C41'—C42'—C43'60.40 (13)
Co4—B7—B8—B1167.77 (17)Co4'—C41'—C45'—C44'58.55 (13)
Co4—B7—B8—B13106.82 (16)Co4'—C42'—C43'—C44'61.04 (14)
Co4—B7—B10—B646.14 (14)Co4'—C43'—C44'—C45'60.03 (13)
Co4—B7—B10—B13144.06 (14)Co4'—C44'—C45'—C41'58.19 (13)
Co4—B7—B10—C12107.31 (14)C3A—C2A—O1A—C5A30.9 (6)
Co4—B7—B13—B8101.10 (15)C3A—C2A—O1A—C5B6.3 (13)
Co4—B7—B13—B1035.54 (13)C3A—C4A—C5A—O1A65.2 (18)
Co4—B7—B13—B1163.70 (19)C3A—C4B—C5B—O1A46.9 (18)
Co4—B7—B13—C121.8 (2)C4A—C3A—C4B—C5B37.5 (17)
Co4—B10—B13—B736.94 (14)C4A—C5A—O1A—C2A57.4 (8)
Co4—B10—B13—B82.3 (2)C4A—C5A—O1A—C5B37.6 (16)
Co4—B10—B13—B1164.27 (19)C5A—O1A—C5B—C4B61.3 (10)
Co4—B10—B13—C12100.54 (16)O1A—C2A—C3A—C4A12.1 (14)
Co4—B10—C12—B638.50 (14)O1A—C2A—C3A—C4B23.7 (5)
Co4—B10—C12—B91.0 (2)C4B—C3A—C4A—C5A59.6 (12)
Co4—B10—C12—B1168.14 (19)C2S—C3S—C4S—C1929.7 (9)
Co4—B10—C12—B13108.03 (16)C3S—C8—C19—C4S70.3 (10)
Co4—C1—C1'—B2'132.86 (16)C3S—C8—C19—O1S4.0 (17)
Co4—C1—C1'—B3'44.6 (2)C3S—C2S—O1S—C1918.6 (3)
Co4—C1—C1'—B5'46.8 (2)C4S—C19—O1S—C2S37.0 (6)
Co4—C1—C1'—Co4'137.14 (13)O1S—C19—C4S—C3S41.2 (8)
Co4—C41—C42—C4357.94 (13)O1S—C2S—C3S—C821.1 (11)
Co4—C41—C45—C4459.88 (14)O1S—C2S—C3S—C4S8.6 (6)
Co4—C42—C43—C4459.25 (13)
(2) meso-[1-{1'-4'-Cyclopentadienyl-4'-cobalta-1',12'-dicarba-closo-dodecaboranyl(10)}-4-cyclopentadienyl-4-cobalta-1,12-dicarba-closo-dodecaborane(10)] top
Crystal data top
[Co2(C5H5)2(C4H22B20)]F(000) = 2160
Mr = 534.46Dx = 1.380 Mg m3
Monoclinic, C2/cMo Kα radiation, λ = 0.71073 Å
a = 43.247 (5) ÅCell parameters from 7807 reflections
b = 8.8497 (9) Åθ = 2.4–28.2°
c = 13.4476 (14) ŵ = 1.30 mm1
β = 90.104 (6)°T = 100 K
V = 5146.7 (9) Å3Block, orange
Z = 80.2 × 0.2 × 0.1 mm
Data collection top
Bruker APEXII CCD
diffractometer
6433 independent reflections
Radiation source: fine-focus sealed tube5814 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.074
φ and ω scansθmax = 28.4°, θmin = 2.4°
Absorption correction: multi-scan
(SADABS; Bruker, 2008)
h = 5057
Tmin = 0.607, Tmax = 0.746k = 1111
39827 measured reflectionsl = 1717
Refinement top
Refinement on F2Primary atom site location: iterative
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.087Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.157H atoms treated by a mixture of independent and constrained refinement
S = 1.25 w = 1/[σ2(Fo2) + (0.0172P)2 + 60.P]
where P = (Fo2 + 2Fc2)/3
6433 reflections(Δ/σ)max = 0.001
392 parametersΔρmax = 0.56 e Å3
0 restraintsΔρmin = 1.57 e Å3
Crystal data top
[Co2(C5H5)2(C4H22B20)]V = 5146.7 (9) Å3
Mr = 534.46Z = 8
Monoclinic, C2/cMo Kα radiation
a = 43.247 (5) ŵ = 1.30 mm1
b = 8.8497 (9) ÅT = 100 K
c = 13.4476 (14) Å0.2 × 0.2 × 0.1 mm
β = 90.104 (6)°
Data collection top
Bruker APEXII CCD
diffractometer
6433 independent reflections
Absorption correction: multi-scan
(SADABS; Bruker, 2008)
5814 reflections with I > 2σ(I)
Tmin = 0.607, Tmax = 0.746Rint = 0.074
39827 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0870 restraints
wR(F2) = 0.157H atoms treated by a mixture of independent and constrained refinement
S = 1.25 w = 1/[σ2(Fo2) + (0.0172P)2 + 60.P]
where P = (Fo2 + 2Fc2)/3
6433 reflectionsΔρmax = 0.56 e Å3
392 parametersΔρmin = 1.57 e Å3
Special details top

Experimental. Absorption correction: SADABS-2008/1 (Bruker,2008) was used for absorption correction. wR2(int) was 0.0846 before and 0.0689 after correction. The Ratio of minimum to maximum transmission is 0.8144. The λ/2 correction factor is 0.0015.

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.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/Ueq
C10.39067 (11)0.8170 (5)0.6364 (3)0.0144 (9)
B20.41436 (12)0.8144 (6)0.7255 (4)0.0163 (10)
H20.4048 (12)0.814 (6)0.801 (4)0.020*
B30.40064 (13)0.8184 (6)0.5255 (4)0.0167 (10)
H30.3822 (12)0.827 (6)0.465 (4)0.020*
Co40.421612 (15)1.00183 (7)0.61755 (5)0.01425 (15)
B50.41291 (13)0.6469 (6)0.6258 (4)0.0188 (11)
H50.3989 (12)0.541 (6)0.634 (4)0.024 (15)*
B60.45413 (12)0.8777 (6)0.7092 (4)0.0164 (10)
H60.4667 (12)0.931 (6)0.774 (4)0.020*
B90.44618 (13)0.6796 (6)0.7142 (4)0.0190 (11)
H90.4517 (12)0.622 (6)0.784 (4)0.023*
B80.43096 (13)0.6798 (7)0.4955 (4)0.0191 (11)
H80.4235 (12)0.608 (6)0.426 (4)0.023*
B70.43961 (13)0.8776 (6)0.4875 (4)0.0178 (11)
H70.4390 (12)0.940 (6)0.417 (4)0.021*
B100.46710 (13)0.9201 (6)0.5841 (4)0.0181 (11)
H100.4857 (12)0.996 (6)0.578 (4)0.022*
B110.45261 (13)0.6039 (7)0.5941 (4)0.0207 (11)
H110.4624 (13)0.502 (7)0.592 (4)0.025*
C120.47469 (12)0.7496 (6)0.6419 (4)0.0188 (10)
H120.4957 (13)0.735 (6)0.666 (4)0.023*
B130.46896 (13)0.7458 (6)0.5149 (4)0.0201 (11)
H130.4885 (12)0.720 (6)0.465 (4)0.024*
C410.38875 (12)1.1745 (5)0.6444 (4)0.0203 (10)
H410.36661.15820.66310.024*
C420.40044 (12)1.1841 (5)0.5447 (4)0.0218 (10)
H420.38791.17840.48230.026*
C430.43318 (13)1.2055 (5)0.5508 (4)0.0238 (11)
H430.44761.21900.49330.029*
C440.44176 (13)1.2070 (5)0.6553 (4)0.0237 (11)
H440.46311.22180.68260.028*
C450.41393 (12)1.1886 (5)0.7125 (4)0.0215 (10)
H450.41251.18530.78670.026*
C1'0.35616 (10)0.8126 (5)0.6621 (3)0.0139 (9)
B2'0.34561 (12)0.6995 (6)0.7450 (4)0.0158 (10)
H2'0.3630 (12)0.624 (6)0.778 (4)0.019*
B3'0.33377 (12)0.9256 (6)0.6090 (4)0.0140 (10)
H3'0.3431 (12)0.985 (6)0.542 (4)0.017*
Co4'0.318766 (15)0.68705 (7)0.60177 (5)0.01299 (15)
B5'0.34084 (13)0.9237 (6)0.7638 (4)0.0158 (10)
H5'0.3592 (12)0.986 (6)0.798 (4)0.019*
B6'0.30464 (13)0.6421 (6)0.7559 (4)0.0158 (10)
H6'0.3016 (12)0.531 (6)0.781 (4)0.019*
B9'0.32033 (12)0.7762 (6)0.8415 (4)0.0165 (11)
H9'0.3291 (12)0.750 (6)0.914 (4)0.020*
B8'0.30811 (13)1.0264 (6)0.6945 (4)0.0165 (10)
H8'0.3060 (12)1.157 (6)0.684 (4)0.020*
B7'0.29223 (12)0.8950 (6)0.6078 (4)0.0146 (10)
H7'0.2785 (12)0.934 (6)0.542 (4)0.018*
B10'0.27700 (12)0.7382 (6)0.6799 (4)0.0156 (10)
H10'0.2548 (12)0.692 (6)0.657 (4)0.019*
B11'0.30301 (13)0.9526 (6)0.8163 (4)0.0172 (11)
H11'0.2993 (12)1.041 (6)0.872 (4)0.021*
C12'0.27649 (11)0.9226 (5)0.7224 (3)0.0164 (9)
H12'0.2575 (13)0.970 (6)0.723 (4)0.020*
B13'0.28065 (13)0.7803 (6)0.8105 (4)0.0168 (11)
H13'0.2605 (12)0.764 (6)0.864 (4)0.020*
C41'0.29696 (12)0.4935 (6)0.5517 (4)0.0246 (11)
H41'0.27940.44020.58490.030*
C42'0.32922 (12)0.4628 (5)0.5657 (4)0.0208 (10)
H42'0.33820.38550.61160.025*
C43'0.34619 (12)0.5607 (6)0.5010 (4)0.0199 (10)
H43'0.36920.56560.49550.024*
C44'0.32471 (12)0.6543 (6)0.4482 (4)0.0209 (10)
H44'0.33010.73400.39850.025*
C45'0.29445 (12)0.6127 (6)0.4784 (4)0.0239 (11)
H45'0.27470.65700.45260.029*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
C10.018 (2)0.0061 (19)0.020 (2)0.0033 (18)0.0005 (17)0.0004 (17)
B20.018 (3)0.010 (2)0.021 (3)0.002 (2)0.002 (2)0.000 (2)
B30.019 (3)0.011 (2)0.020 (3)0.003 (2)0.000 (2)0.001 (2)
Co40.0174 (3)0.0084 (3)0.0169 (3)0.0019 (2)0.0001 (2)0.0006 (2)
B50.018 (3)0.012 (2)0.027 (3)0.003 (2)0.003 (2)0.004 (2)
B60.014 (2)0.017 (3)0.018 (2)0.001 (2)0.0060 (19)0.002 (2)
B90.015 (3)0.015 (3)0.027 (3)0.001 (2)0.001 (2)0.003 (2)
B80.020 (3)0.017 (3)0.020 (3)0.002 (2)0.000 (2)0.005 (2)
B70.019 (3)0.015 (3)0.020 (3)0.002 (2)0.003 (2)0.000 (2)
B100.016 (3)0.014 (3)0.025 (3)0.000 (2)0.004 (2)0.001 (2)
B110.020 (3)0.015 (3)0.027 (3)0.001 (2)0.001 (2)0.001 (2)
C120.016 (2)0.014 (2)0.026 (3)0.0006 (19)0.0014 (19)0.0011 (19)
B130.018 (3)0.015 (3)0.028 (3)0.001 (2)0.001 (2)0.003 (2)
C410.026 (3)0.009 (2)0.026 (3)0.001 (2)0.001 (2)0.0008 (19)
C420.033 (3)0.008 (2)0.025 (2)0.002 (2)0.005 (2)0.0030 (19)
C430.035 (3)0.006 (2)0.030 (3)0.004 (2)0.009 (2)0.0049 (19)
C440.026 (3)0.007 (2)0.038 (3)0.006 (2)0.004 (2)0.001 (2)
C450.032 (3)0.008 (2)0.025 (2)0.003 (2)0.001 (2)0.0039 (19)
C1'0.012 (2)0.015 (2)0.015 (2)0.0021 (18)0.0013 (16)0.0023 (17)
B2'0.014 (2)0.015 (3)0.018 (2)0.000 (2)0.0004 (19)0.000 (2)
B3'0.012 (2)0.010 (2)0.019 (2)0.0002 (19)0.0001 (19)0.0017 (19)
Co4'0.0142 (3)0.0095 (3)0.0152 (3)0.0003 (2)0.0007 (2)0.0006 (2)
B5'0.018 (3)0.017 (3)0.012 (2)0.001 (2)0.0001 (19)0.0013 (19)
B6'0.019 (3)0.012 (2)0.017 (2)0.000 (2)0.001 (2)0.0042 (19)
B9'0.016 (3)0.018 (3)0.015 (2)0.000 (2)0.001 (2)0.0033 (19)
B8'0.021 (3)0.012 (2)0.017 (2)0.001 (2)0.000 (2)0.0019 (19)
B7'0.017 (3)0.011 (2)0.016 (2)0.003 (2)0.0010 (19)0.0009 (19)
B10'0.014 (3)0.013 (2)0.020 (3)0.001 (2)0.001 (2)0.0029 (19)
B11'0.018 (3)0.016 (3)0.018 (3)0.001 (2)0.002 (2)0.000 (2)
C12'0.017 (2)0.014 (2)0.018 (2)0.0057 (18)0.0038 (18)0.0003 (18)
B13'0.022 (3)0.012 (2)0.016 (2)0.001 (2)0.000 (2)0.0002 (19)
C41'0.023 (3)0.020 (2)0.032 (3)0.011 (2)0.003 (2)0.014 (2)
C42'0.027 (3)0.004 (2)0.031 (3)0.0011 (18)0.001 (2)0.0044 (18)
C43'0.020 (2)0.017 (2)0.023 (2)0.001 (2)0.0002 (19)0.0115 (19)
C44'0.025 (3)0.018 (2)0.020 (2)0.001 (2)0.0013 (19)0.0037 (18)
C45'0.026 (3)0.021 (3)0.024 (3)0.001 (2)0.006 (2)0.010 (2)
Geometric parameters (Å, º) top
C1—B21.575 (7)C1'—B2'1.567 (7)
C1—B31.554 (7)C1'—B3'1.563 (7)
C1—Co42.129 (4)C1'—Co4'2.122 (4)
C1—B51.792 (7)C1'—B5'1.810 (7)
C1—C1'1.533 (6)B2'—H2'1.10 (5)
B2—H21.10 (5)B2'—Co4'2.250 (5)
B2—Co42.227 (5)B2'—B5'2.011 (8)
B2—B52.000 (8)B2'—B6'1.849 (8)
B2—B61.823 (8)B2'—B9'1.829 (8)
B2—B91.828 (8)B3'—H3'1.12 (5)
B3—H31.14 (5)B3'—Co4'2.210 (5)
B3—Co42.233 (5)B3'—B5'2.102 (7)
B3—B52.098 (8)B3'—B8'1.831 (8)
B3—B81.841 (8)B3'—B7'1.816 (8)
B3—B71.838 (8)Co4'—B6'2.198 (5)
Co4—B62.168 (5)Co4'—B7'2.170 (5)
Co4—B72.208 (5)Co4'—B10'2.140 (5)
Co4—B102.144 (6)Co4'—C41'2.067 (5)
Co4—C412.118 (5)Co4'—C42'2.093 (4)
Co4—C422.096 (5)Co4'—C43'2.121 (5)
Co4—C432.075 (5)Co4'—C44'2.101 (5)
Co4—C442.077 (5)Co4'—C45'2.070 (5)
Co4—C452.115 (5)B5'—H5'1.07 (5)
B5—H51.12 (6)B5'—B9'1.894 (8)
B5—B91.887 (8)B5'—B8'1.921 (8)
B5—B81.941 (8)B5'—B11'1.801 (8)
B5—B111.810 (8)B6'—H6'1.05 (5)
B6—H61.12 (5)B6'—B9'1.785 (8)
B6—B91.788 (8)B6'—B10'1.787 (8)
B6—B101.814 (8)B6'—B13'1.765 (8)
B6—C121.702 (7)B9'—H9'1.07 (5)
B9—H91.09 (5)B9'—B11'1.764 (8)
B9—B111.771 (8)B9'—B13'1.765 (8)
B9—C121.689 (7)B8'—H8'1.17 (5)
B8—H81.17 (5)B8'—B7'1.784 (8)
B8—B71.793 (8)B8'—B11'1.776 (7)
B8—B111.756 (8)B8'—C12'1.690 (7)
B8—B131.763 (8)B7'—H7'1.12 (5)
B7—H71.10 (5)B7'—B10'1.817 (7)
B7—B101.799 (8)B7'—C12'1.704 (7)
B7—B131.763 (8)B10'—H10'1.09 (5)
B10—H101.05 (5)B10'—C12'1.729 (7)
B10—C121.728 (7)B10'—B13'1.802 (8)
B10—B131.804 (8)B11'—H11'1.09 (5)
B11—H110.99 (6)B11'—C12'1.724 (7)
B11—C121.728 (8)B11'—B13'1.807 (8)
B11—B131.793 (8)C12'—H12'0.93 (5)
C12—H120.97 (6)C12'—B13'1.738 (7)
C12—B131.726 (8)B13'—H13'1.14 (5)
B13—H131.10 (5)C41'—H41'1.0000
C41—H411.0000C41'—C42'1.434 (7)
C41—C421.436 (7)C41'—C45'1.447 (8)
C41—C451.427 (7)C42'—H42'1.0000
C42—H421.0000C42'—C43'1.431 (7)
C42—C431.430 (7)C43'—H43'1.0000
C43—H431.0000C43'—C44'1.432 (7)
C43—C441.453 (7)C44'—H44'1.0000
C44—H441.0000C44'—C45'1.420 (7)
C44—C451.439 (7)C45'—H45'1.0000
C45—H451.0000
B2—C1—Co472.2 (3)C1—C1'—B2'117.5 (4)
B2—C1—B572.5 (3)C1—C1'—B3'118.9 (4)
B3—C1—B2123.3 (4)C1—C1'—Co4'131.9 (3)
B3—C1—Co472.8 (3)C1—C1'—B5'121.0 (4)
B3—C1—B577.3 (3)B2'—C1'—Co4'73.4 (3)
B5—C1—Co4107.4 (3)B2'—C1'—B5'72.7 (3)
C1'—C1—B2117.4 (4)B3'—C1'—B2'123.5 (4)
C1'—C1—B3119.2 (4)B3'—C1'—Co4'71.9 (3)
C1'—C1—Co4131.2 (3)B3'—C1'—B5'76.7 (3)
C1'—C1—B5121.3 (4)B5'—C1'—Co4'107.1 (3)
C1—B2—H2117 (3)C1'—B2'—H2'118 (3)
C1—B2—Co465.5 (2)C1'—B2'—Co4'64.7 (2)
C1—B2—B558.8 (3)C1'—B2'—B5'59.2 (3)
C1—B2—B6121.1 (4)C1'—B2'—B6'120.8 (4)
C1—B2—B9115.8 (4)C1'—B2'—B9'116.3 (4)
Co4—B2—H2131 (3)Co4'—B2'—H2'132 (3)
B5—B2—H2127 (3)B5'—B2'—H2'128 (3)
B5—B2—Co496.8 (3)B5'—B2'—Co4'95.9 (3)
B6—B2—H2118 (3)B6'—B2'—H2'117 (3)
B6—B2—Co463.8 (2)B6'—B2'—Co4'64.0 (2)
B6—B2—B5100.1 (4)B6'—B2'—B5'99.3 (3)
B6—B2—B958.6 (3)B9'—B2'—H2'110 (3)
B9—B2—H2111 (3)B9'—B2'—Co4'108.5 (3)
B9—B2—Co4109.0 (3)B9'—B2'—B5'58.9 (3)
B9—B2—B558.9 (3)B9'—B2'—B6'58.1 (3)
C1—B3—H3120 (3)C1'—B3'—H3'116 (3)
C1—B3—Co465.6 (3)C1'—B3'—Co4'65.9 (2)
C1—B3—B556.4 (3)C1'—B3'—B5'56.9 (3)
C1—B3—B8113.8 (4)C1'—B3'—B8'113.6 (4)
C1—B3—B7121.7 (4)C1'—B3'—B7'121.4 (4)
Co4—B3—H3129 (3)Co4'—B3'—H3'121 (3)
B5—B3—H3133 (3)B5'—B3'—H3'138 (3)
B5—B3—Co493.9 (3)B5'—B3'—Co4'94.5 (3)
B8—B3—H3112 (3)B8'—B3'—H3'120 (3)
B8—B3—Co4108.5 (3)B8'—B3'—Co4'108.4 (3)
B8—B3—B558.6 (3)B8'—B3'—B5'58.0 (3)
B7—B3—H3115 (3)B7'—B3'—H3'115 (3)
B7—B3—Co464.8 (2)B7'—B3'—Co4'64.3 (2)
B7—B3—B598.8 (3)B7'—B3'—B5'98.6 (3)
B7—B3—B858.3 (3)B7'—B3'—B8'58.6 (3)
C1—Co4—B242.32 (18)C1'—Co4'—B2'41.87 (18)
C1—Co4—B341.66 (18)C1'—Co4'—B3'42.24 (18)
C1—Co4—B687.14 (19)C1'—Co4'—B6'86.96 (19)
C1—Co4—B786.24 (19)C1'—Co4'—B7'86.81 (19)
C1—Co4—B10110.1 (2)C1'—Co4'—B10'110.17 (19)
B2—Co4—B376.3 (2)B3'—Co4'—B2'76.4 (2)
B6—Co4—B249.0 (2)B6'—Co4'—B2'49.1 (2)
B6—Co4—B3102.1 (2)B6'—Co4'—B3'102.3 (2)
B6—Co4—B788.2 (2)B7'—Co4'—B2'101.5 (2)
B7—Co4—B2101.3 (2)B7'—Co4'—B3'49.0 (2)
B7—Co4—B348.9 (2)B7'—Co4'—B6'88.3 (2)
B10—Co4—B290.9 (2)B10'—Co4'—B2'90.2 (2)
B10—Co4—B390.6 (2)B10'—Co4'—B3'91.4 (2)
B10—Co4—B649.7 (2)B10'—Co4'—B6'48.6 (2)
B10—Co4—B748.8 (2)B10'—Co4'—B7'49.9 (2)
C41—Co4—C196.42 (18)C41'—Co4'—C1'154.9 (2)
C41—Co4—B2109.3 (2)C41'—Co4'—B2'123.6 (2)
C41—Co4—B3110.3 (2)C41'—Co4'—B3'159.9 (2)
C41—Co4—B6134.7 (2)C41'—Co4'—B6'91.7 (2)
C41—Co4—B7137.0 (2)C41'—Co4'—B7'118.3 (2)
C41—Co4—B10153.5 (2)C41'—Co4'—B10'87.1 (2)
C42—Co4—C1111.89 (19)C41'—Co4'—C42'40.3 (2)
C42—Co4—B2144.7 (2)C41'—Co4'—C43'67.08 (19)
C42—Co4—B397.1 (2)C41'—Co4'—C44'67.8 (2)
C42—Co4—B6159.7 (2)C41'—Co4'—C45'40.9 (2)
C42—Co4—B799.6 (2)C42'—Co4'—C1'114.86 (19)
C42—Co4—B10124.2 (2)C42'—Co4'—B2'97.7 (2)
C42—Co4—C4139.85 (19)C42'—Co4'—B3'148.47 (19)
C42—Co4—C4567.2 (2)C42'—Co4'—B6'96.2 (2)
C43—Co4—C1150.6 (2)C42'—Co4'—B7'158.0 (2)
C43—Co4—B2164.4 (2)C42'—Co4'—B10'119.8 (2)
C43—Co4—B3119.3 (2)C42'—Co4'—C43'39.71 (19)
C43—Co4—B6122.0 (2)C42'—Co4'—C44'67.3 (2)
C43—Co4—B790.2 (2)C43'—Co4'—C1'95.37 (18)
C43—Co4—B1088.9 (2)C43'—Co4'—B2'106.51 (19)
C43—Co4—C4167.0 (2)C43'—Co4'—B3'111.5 (2)
C43—Co4—C4240.1 (2)C43'—Co4'—B6'131.6 (2)
C43—Co4—C4441.0 (2)C43'—Co4'—B7'140.1 (2)
C43—Co4—C4567.7 (2)C43'—Co4'—B10'154.0 (2)
C44—Co4—C1155.0 (2)C44'—Co4'—C1'110.71 (18)
C44—Co4—B2123.5 (2)C44'—Co4'—B2'141.6 (2)
C44—Co4—B3160.2 (2)C44'—Co4'—B3'98.0 (2)
C44—Co4—B691.9 (2)C44'—Co4'—B6'159.4 (2)
C44—Co4—B7118.7 (2)C44'—Co4'—B7'102.7 (2)
C44—Co4—B1087.8 (2)C44'—Co4'—B10'128.1 (2)
C44—Co4—C4167.0 (2)C44'—Co4'—C43'39.64 (19)
C44—Co4—C4267.9 (2)C45'—Co4'—C1'149.2 (2)
C44—Co4—C4540.1 (2)C45'—Co4'—B2'164.2 (2)
C45—Co4—C1115.40 (19)C45'—Co4'—B3'119.2 (2)
C45—Co4—B299.56 (19)C45'—Co4'—B6'123.8 (2)
C45—Co4—B3147.0 (2)C45'—Co4'—B7'91.8 (2)
C45—Co4—B698.9 (2)C45'—Co4'—B10'91.9 (2)
C45—Co4—B7157.4 (2)C45'—Co4'—C42'67.8 (2)
C45—Co4—B10122.4 (2)C45'—Co4'—C43'66.7 (2)
C45—Co4—C4139.39 (19)C45'—Co4'—C44'39.8 (2)
C1—B5—B248.7 (2)C1'—B5'—B2'48.1 (2)
C1—B5—B346.3 (2)C1'—B5'—B3'46.4 (2)
C1—B5—H5114 (3)C1'—B5'—H5'109 (3)
C1—B5—B9103.3 (4)C1'—B5'—B9'102.4 (4)
C1—B5—B899.4 (3)C1'—B5'—B8'99.3 (3)
C1—B5—B11134.8 (4)B2'—B5'—B3'84.2 (3)
B2—B5—B384.4 (3)B2'—B5'—H5'119 (3)
B2—B5—H5125 (3)B3'—B5'—H5'122 (3)
B3—B5—H5122 (3)B9'—B5'—B2'55.8 (3)
B9—B5—B256.0 (3)B9'—B5'—B3'118.9 (4)
B9—B5—B3119.1 (4)B9'—B5'—H5'118 (3)
B9—B5—H5119 (3)B9'—B5'—B8'104.4 (4)
B9—B5—B8103.8 (4)B8'—B5'—B2'118.8 (4)
B8—B5—B2118.8 (4)B8'—B5'—B3'53.9 (3)
B8—B5—B354.0 (3)B8'—B5'—H5'121 (3)
B8—B5—H5115 (3)B11'—B5'—C1'135.0 (4)
B11—B5—B2106.6 (4)B11'—B5'—B2'106.4 (4)
B11—B5—B3103.9 (4)B11'—B5'—B3'104.8 (3)
B11—B5—H5111 (3)B11'—B5'—H5'116 (3)
B11—B5—B957.2 (3)B11'—B5'—B9'57.0 (3)
B11—B5—B855.7 (3)B11'—B5'—B8'56.9 (3)
B2—B6—Co467.2 (2)B2'—B6'—Co4'66.9 (2)
B2—B6—H6119 (3)B2'—B6'—H6'114 (3)
Co4—B6—H6123 (3)Co4'—B6'—H6'121 (3)
B9—B6—B260.8 (3)B9'—B6'—B2'60.4 (3)
B9—B6—Co4113.2 (3)B9'—B6'—Co4'112.4 (3)
B9—B6—H6118 (3)B9'—B6'—H6'117 (3)
B9—B6—B10107.3 (4)B9'—B6'—B10'107.8 (4)
B10—B6—B2117.9 (4)B10'—B6'—B2'117.7 (4)
B10—B6—Co464.5 (2)B10'—B6'—Co4'64.0 (2)
B10—B6—H6118 (3)B10'—B6'—H6'123 (3)
C12—B6—B2110.7 (4)B13'—B6'—B2'114.0 (4)
C12—B6—Co4112.0 (3)B13'—B6'—Co4'115.6 (3)
C12—B6—H6116 (3)B13'—B6'—H6'116 (3)
C12—B6—B957.8 (3)B13'—B6'—B9'59.6 (3)
C12—B6—B1058.8 (3)B13'—B6'—B10'61.0 (3)
B2—B9—B565.1 (3)B2'—B9'—B5'65.4 (3)
B2—B9—H9113 (3)B2'—B9'—H9'111 (3)
B5—B9—H9129 (3)B5'—B9'—H9'119 (3)
B6—B9—B260.5 (3)B6'—B9'—B2'61.5 (3)
B6—B9—B5105.9 (4)B6'—B9'—B5'106.3 (4)
B6—B9—H9117 (3)B6'—B9'—H9'125 (3)
B11—B9—B2116.2 (4)B11'—B9'—B2'116.5 (4)
B11—B9—B559.2 (3)B11'—B9'—B5'58.9 (3)
B11—B9—B6107.9 (4)B11'—B9'—B6'107.7 (4)
B11—B9—H9125 (3)B11'—B9'—H9'121 (3)
C12—B9—B2111.0 (4)B11'—B9'—B13'61.6 (3)
C12—B9—B5104.5 (4)B13'—B9'—B2'115.0 (4)
C12—B9—B658.5 (3)B13'—B9'—B5'108.2 (4)
C12—B9—H9120 (3)B13'—B9'—B6'59.6 (3)
C12—B9—B1159.9 (3)B13'—B9'—H9'124 (3)
B3—B8—B567.3 (3)B3'—B8'—B5'68.1 (3)
B3—B8—H8110 (3)B3'—B8'—H8'117 (3)
B5—B8—H8122 (3)B5'—B8'—H8'126 (3)
B7—B8—B360.8 (3)B7'—B8'—B3'60.3 (3)
B7—B8—B5106.5 (4)B7'—B8'—B5'106.9 (4)
B7—B8—H8123 (3)B7'—B8'—H8'122 (3)
B11—B8—B3117.9 (4)B11'—B8'—B3'118.4 (4)
B11—B8—B558.4 (3)B11'—B8'—B5'58.2 (3)
B11—B8—H8123 (3)B11'—B8'—H8'118 (3)
B11—B8—B7107.9 (4)B11'—B8'—B7'108.4 (4)
B11—B8—B1361.3 (3)C12'—B8'—B3'111.5 (4)
B13—B8—B3114.3 (4)C12'—B8'—B5'103.4 (3)
B13—B8—B5107.0 (4)C12'—B8'—H8'120 (3)
B13—B8—H8124 (3)C12'—B8'—B7'58.7 (3)
B13—B8—B759.4 (3)C12'—B8'—B11'59.6 (3)
B3—B7—Co466.3 (2)B3'—B7'—Co4'66.7 (2)
B3—B7—H7111 (3)B3'—B7'—H7'119 (3)
Co4—B7—H7115 (3)B3'—B7'—B10'117.9 (4)
B8—B7—B360.9 (3)Co4'—B7'—H7'121 (3)
B8—B7—Co4111.4 (3)B8'—B7'—B3'61.1 (3)
B8—B7—H7122 (3)B8'—B7'—Co4'112.0 (3)
B8—B7—B10107.4 (4)B8'—B7'—H7'121 (3)
B10—B7—B3117.7 (4)B8'—B7'—B10'106.7 (4)
B10—B7—Co463.8 (2)B10'—B7'—Co4'64.2 (2)
B10—B7—H7122 (3)B10'—B7'—H7'118 (3)
B13—B7—B3114.4 (4)C12'—B7'—B3'111.5 (4)
B13—B7—Co4114.8 (3)C12'—B7'—Co4'111.6 (3)
B13—B7—B859.4 (3)C12'—B7'—B8'57.9 (3)
B13—B7—H7122 (3)C12'—B7'—H7'117 (3)
B13—B7—B1060.8 (3)C12'—B7'—B10'58.7 (3)
Co4—B10—H10120 (3)Co4'—B10'—H10'121 (3)
B6—B10—Co465.8 (2)B6'—B10'—Co4'67.4 (2)
B6—B10—H10116 (3)B6'—B10'—B7'115.2 (4)
B7—B10—Co467.5 (3)B6'—B10'—H10'125 (3)
B7—B10—B6114.9 (4)B6'—B10'—B13'58.9 (3)
B7—B10—H10126 (3)B7'—B10'—Co4'65.9 (2)
B7—B10—B1358.6 (3)B7'—B10'—H10'117 (3)
C12—B10—Co4111.9 (3)C12'—B10'—Co4'111.9 (3)
C12—B10—B657.4 (3)C12'—B10'—B6'105.6 (4)
C12—B10—B7105.5 (4)C12'—B10'—B7'57.4 (3)
C12—B10—H10116 (3)C12'—B10'—H10'116 (3)
C12—B10—B1358.4 (3)C12'—B10'—B13'58.9 (3)
B13—B10—Co4116.0 (3)B13'—B10'—Co4'116.7 (3)
B13—B10—B6108.4 (4)B13'—B10'—B7'109.3 (4)
B13—B10—H10118 (3)B13'—B10'—H10'116 (3)
B5—B11—H11127 (3)B5'—B11'—H11'120 (3)
B9—B11—B563.6 (3)B5'—B11'—B13'110.5 (4)
B9—B11—H11116 (3)B9'—B11'—B5'64.2 (3)
B9—B11—B13109.8 (4)B9'—B11'—B8'116.7 (4)
B8—B11—B565.9 (3)B9'—B11'—H11'124 (3)
B8—B11—B9117.4 (4)B9'—B11'—B13'59.2 (3)
B8—B11—H11123 (3)B8'—B11'—B5'64.9 (3)
B8—B11—B1359.6 (3)B8'—B11'—H11'113 (3)
C12—B11—B5106.2 (4)B8'—B11'—B13'109.8 (4)
C12—B11—B957.7 (3)C12'—B11'—B5'107.1 (4)
C12—B11—B8106.8 (4)C12'—B11'—B9'106.6 (4)
C12—B11—H11117 (3)C12'—B11'—B8'57.7 (3)
C12—B11—B1358.7 (3)C12'—B11'—H11'121 (3)
B13—B11—B5111.6 (4)C12'—B11'—B13'58.9 (3)
B13—B11—H11116 (3)B13'—B11'—H11'123 (3)
B6—C12—B1063.8 (3)B8'—C12'—B7'63.4 (3)
B6—C12—B11114.0 (4)B8'—C12'—B10'115.4 (4)
B6—C12—H12114 (3)B8'—C12'—B11'62.7 (3)
B6—C12—B13117.7 (4)B8'—C12'—H12'118 (3)
B9—C12—B663.6 (3)B8'—C12'—B13'117.5 (4)
B9—C12—B10116.2 (4)B7'—C12'—B10'63.9 (3)
B9—C12—B1162.4 (3)B7'—C12'—B11'114.7 (4)
B9—C12—H12116 (3)B7'—C12'—H12'116 (3)
B9—C12—B13117.3 (4)B7'—C12'—B13'118.1 (4)
B10—C12—H12116 (3)B10'—C12'—H12'117 (3)
B11—C12—B10112.3 (4)B10'—C12'—B13'62.6 (3)
B11—C12—H12123 (3)B11'—C12'—B10'112.2 (4)
B13—C12—B1063.0 (3)B11'—C12'—H12'121 (3)
B13—C12—B1162.5 (3)B11'—C12'—B13'62.9 (3)
B13—C12—H12117 (3)B13'—C12'—H12'114 (3)
B8—B13—B10108.5 (4)B6'—B13'—B9'60.8 (3)
B8—B13—B1159.2 (3)B6'—B13'—B10'60.1 (3)
B8—B13—H13124 (3)B6'—B13'—B11'106.7 (4)
B7—B13—B861.1 (3)B6'—B13'—H13'129 (3)
B7—B13—B1060.6 (3)B9'—B13'—B10'108.0 (4)
B7—B13—B11107.6 (4)B9'—B13'—B11'59.2 (3)
B7—B13—H13124 (3)B9'—B13'—H13'126 (3)
B10—B13—H13122 (3)B10'—B13'—B11'105.2 (4)
B11—B13—B10105.9 (4)B10'—B13'—H13'121 (3)
B11—B13—H13121 (3)B11'—B13'—H13'119 (3)
C12—B13—B8106.6 (4)C12'—B13'—B6'106.2 (4)
C12—B13—B7107.2 (4)C12'—B13'—B9'105.9 (4)
C12—B13—B1058.6 (3)C12'—B13'—B10'58.4 (3)
C12—B13—B1158.8 (3)C12'—B13'—B11'58.2 (3)
C12—B13—H13120 (3)C12'—B13'—H13'116 (3)
Co4—C41—H41125.5Co4'—C41'—H41'126.3
C42—C41—Co469.3 (3)C42'—C41'—Co4'70.8 (3)
C42—C41—H41125.5C42'—C41'—H41'126.3
C45—C41—Co470.2 (3)C42'—C41'—C45'107.4 (5)
C45—C41—H41125.5C45'—C41'—Co4'69.6 (3)
C45—C41—C42108.9 (5)C45'—C41'—H41'126.3
Co4—C42—H42126.1Co4'—C42'—H42'126.1
C41—C42—Co470.9 (3)C41'—C42'—Co4'68.9 (3)
C41—C42—H42126.1C41'—C42'—H42'126.1
C43—C42—Co469.2 (3)C43'—C42'—Co4'71.2 (3)
C43—C42—C41107.7 (4)C43'—C42'—C41'107.8 (5)
C43—C42—H42126.1C43'—C42'—H42'126.1
Co4—C43—H43126.0Co4'—C43'—H43'125.7
C42—C43—Co470.7 (3)C42'—C43'—Co4'69.1 (3)
C42—C43—H43126.0C42'—C43'—H43'125.7
C42—C43—C44107.9 (4)C42'—C43'—C44'108.6 (4)
C44—C43—Co469.6 (3)C44'—C43'—Co4'69.5 (3)
C44—C43—H43126.0C44'—C43'—H43'125.7
Co4—C44—H44126.1Co4'—C44'—H44'126.1
C43—C44—Co469.5 (3)C43'—C44'—Co4'70.9 (3)
C43—C44—H44126.1C43'—C44'—H44'126.1
C45—C44—Co471.4 (3)C45'—C44'—Co4'68.9 (3)
C45—C44—C43107.7 (5)C45'—C44'—C43'107.8 (5)
C45—C44—H44126.1C45'—C44'—H44'126.1
Co4—C45—H45126.1Co4'—C45'—H45'125.8
C41—C45—Co470.4 (3)C41'—C45'—Co4'69.4 (3)
C41—C45—C44107.8 (4)C41'—C45'—H45'125.8
C41—C45—H45126.1C44'—C45'—Co4'71.3 (3)
C44—C45—Co468.5 (3)C44'—C45'—C41'108.4 (5)
C44—C45—H45126.1C44'—C45'—H45'125.8

Experimental details

(1.2THF)(2)
Crystal data
Chemical formula[Co2(C5H5)2(C4H22B20)]·2C4H8O[Co2(C5H5)2(C4H22B20)]
Mr678.66534.46
Crystal system, space groupTriclinic, P1Monoclinic, C2/c
Temperature (K)100100
a, b, c (Å)8.9219 (5), 12.4145 (7), 15.5650 (9)43.247 (5), 8.8497 (9), 13.4476 (14)
α, β, γ (°)89.659 (3), 79.993 (4), 76.920 (3)90, 90.104 (6), 90
V3)1652.72 (16)5146.7 (9)
Z28
Radiation typeMo KαMo Kα
µ (mm1)1.031.30
Crystal size (mm)0.4 × 0.16 × 0.060.2 × 0.2 × 0.1
Data collection
DiffractometerBruker APEXII CCD
diffractometer
Bruker APEXII CCD
diffractometer
Absorption correctionMulti-scan
(SADABS; Bruker, 2008)
Multi-scan
(SADABS; Bruker, 2008)
Tmin, Tmax0.669, 0.7460.607, 0.746
No. of measured, independent and
observed [I > 2σ(I)] reflections
41114, 11163, 8236 39827, 6433, 5814
Rint0.0580.074
(sin θ/λ)max1)0.7450.670
Refinement
R[F2 > 2σ(F2)], wR(F2), S 0.044, 0.110, 1.03 0.087, 0.157, 1.25
No. of reflections111636433
No. of parameters510392
No. of restraints630
H-atom treatmentH atoms treated by a mixture of independent and constrained refinementH atoms treated by a mixture of independent and constrained refinement
w = 1/[σ2(Fo2) + (0.0481P)2 + 0.3296P]
where P = (Fo2 + 2Fc2)/3
w = 1/[σ2(Fo2) + (0.0172P)2 + 60.P]
where P = (Fo2 + 2Fc2)/3
Δρmax, Δρmin (e Å3)0.64, 0.600.56, 1.57

Computer programs: APEX2 (Bruker, 2009), SAINT (Bruker, 2009), SHELXS97 (Sheldrick, 2008), SHELXL2013 (Sheldrick, 2015), OLEX2 (Dolomanov et al., 2009), publCIF (Westrip, 2010).

Vertex-to-centroid distances (Å) in prostructures of rac- and meso-[1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)] top
rac form (1)meso form (2)
VertexCage of Co4Cage of Co4'Cage of Co4Cage of Co4'
12.019 (2)1.984 (2)2.018 (2)1.983 (2)2.041 (5)2.007 (5)2.044 (5)2.009 (5)
21.884 (3)1.863 (3)1.885 (2)1.864 (2)1.895 (6)1.876 (6)1.884 (6)1.861 (6)
31.878 (3)1.852 (3)1.876 (3)1.850 (3)1.905 (6)1.877 (6)1.919 (6)1.894 (6)
42.0102 (8)1.9965 (9)2.0057 (9)1.9922 (10)2.0348 (19)2.022 (2)2.0313 (18)2.017 (2)
51.596 (3)1.575 (3)1.595 (3)1.574 (3)1.608 (6)1.587 (6)1.606 (3)1.583 (6)
61.778 (3)1.789 (3)1.772 (3)1.784 (3)1.793 (6)1.807 (6)1.783 (6)1.794 (6)
71.776 (3)1.781 (3)1.770 (3)1.775 (3)1.796 (6)1.799 (6)1.803 (6)1.808 (6)
81.734 (3)1.735 (3)1.740 (3)1.740 (3)1.762 (6)1.759 (6)1.765 (6)1.767 (6)
91.756 (3)1.763 (3)1.753 (3)1.759 (3)1.782 (6)1.790 (6)1.771 (6)1.777 (6)
101.801 (3)1.826 (3)1.798 (3)1.822 (3)1.815 (6)1.840 (6)1.806 (6)1.830 (6)
111.742 (3)1.759 (3)1.734 (3)1.750 (3)1.751 (6)1.767 (7)1.757 (6)1.775 (6)
121.724 (3)1.756 (3)1.723 (3)1.755 (3)1.742 (7)1.775 (7)1.740 (7)1.770 (7)
131.878 (3)1.908 (3)1.883 (3)1.912 (3)1.895 (7)1.923 (7)1.911 (6)1.944 (6)
Boron–hydrogen distances (Å) in prostructures of rac- and meso-[1-(1'-4'-Cp-4',1',12'-closo-CoC2B10H11)-4-Cp-4,1,12-closo-CoC2B10H11)] top
rac form (1)meso form (2)
VertexCage of Co4Cage of Co4'Cage of Co4Cage of Co4'
21.13 (3)1.12 (3)1.11 (5)1.11 (6)
31.15 (4)1.12 (3)1.16 (5)1.15 (5)
51.07 (3)1.05 (3)1.15 (5)1.07 (6)
61.07 (3)1.01 (3)1.14 (5)1.05 (6)
71.12 (3)1.17 (3)1.12 (6)1.13 (5)
81.12 (3)1.15 (3)1.19 (6)1.19 (6)
91.20 (3)1.06 (3)1.11 (6)1.09 (5)
101.06 (3)1.09 (3)1.05 (6)1.06 (5)
111.10 (3)1.02 (3)1.02 (6)1.08 (6)
120.35 (3)0.38 (3)0.33 (7)0.32 (7)
131.07 (3)1.14 (3)1.10 (6)1.14 (5)
Vertex-to-centroid distances (Å) in literature 1,12-R2-4-L-4,1,12-MC2B10H10 structuresa top
CSD refcodeYALKUSEDIMAGEDIMIOPUYHOHGESZIPTEGXOUTEGXUA
R, L, MH, dppeb, NiPh, Cp, CoPh, cymc, RuMe, indyd, CoC7F7e, Cp, CoMe, Cp, CoMe, cym, Ru
ReferenceEllis et al. (2005)Zlatogorsky et al. (2007)Zlatogorsky et al. (2007)Scott et al. (2010)Ward et al. (2012)McAnaw et al. (2012)McAnaw et al. (2012)
11.989 (3)2.013 (3)2.023 (6)2.004 (2)1.999 (4)1.968 (4)2.007 (2)
21.876 (3)1.878 (3)1.881 (9)1.889 (2)1.899 (4)1.900 (5)1.896 (3)
31.878 (3)1.878 (3)1.871 (8)1.868 (2)1.886 (5)1.848 (7)1.870 (3)
42.0417 (9)2.0096 (11)2.177 (2)2.0056 (8)2.0015 (14)2.0012 (16)2.1661 (7)
51.609 (3)1.597 (3)1.598 (7)1.598 (3)1.611 (4)1.598 (6)1.597 (2)
61.767 (2)1.761 (3)1.767 (7)1.763 (2)1.780 (4)1.786 (6)1.777 (3)
71.756 (3)1.760 (3)1.764 (7)1.772 (2)1.765 (5)1.769 (4)1.777 (3)
81.744 (3)1.743 (3)1.739 (8)1.737 (2)1.744 (4)1.733 (7)1.743 (3)
91.731 (3)1.749 (3)1.747 (7)1.754 (3)1.747 (4)1.739 (5)1.741 (3)
101.808 (3)1.793 (3)1.797 (7)1.787 (3)1.785 (4)1.789 (6)1.798 (2)
111.728 (3)1.723 (4)1.722 (8)1.726 (3)1.710 (5)1.718 (4)1.729 (3)
121.785 (3)1.763 (3)1.762 (6)1.758 (2)1.783 (4)1.732 (5)1.756 (2)
131.814 (3)1.870 (4)1.875 (9)1.873 (3)1.878 (5)1.886 (6)1.862 (3)
Notes: (a) centroids calculated by excluding the metal at vertex 4 and, for balance, the antipodal atom at vertex 11; (b) dppe is 1,2-bis(diphenylphosphanyl)ethane; (c) cym is η-C10H14-1-iPr,4-Me-C6H4; (d) indy is η-C9H7; (e) C7F7 = 4-F3C-C6H4.
Selected geometric parameters (Å, °) in (1) and (2). top
rac form (1)meso form (2)
Co4—C12.1099 (17)Co4—C12.129 (4)
Co4—B22.210 (2)Co4—B22.227 (5)
Co4—B62.139 (2)Co4—B62.168 (5)
Co4—B102.128 (2)Co4—B102.144 (6)
Co4—B72.176 (2)Co4—B72.208 (5)
Co4—B32.202 (2)Co4—B32.233 (5)
Co4'—C1'2.1091 (18)Co4'—C1'2.122 (4)
Co4'—B2'2.207 (2)Co4'—B2'2.250 (5)
Co4'—B6'2.132 (2)Co4'—B6'2.198 (5)
Co4'—B10'2.123 (2)Co4'—B10'2.140 (5)
Co4'—B7'2.169 (2)Co4'—B7'2.170 (5)
Co4'—B3'2.211 (2)Co4'—B3'2.210 (5)
C1—C1'1.521 (2)C1—C1'1.533 (6)
Co4—CCp2.043 (2)–2.100 (2)Co4—CCp2.075 (5)–2.118 (5)
Co4'—CCp2.038 (2)–2.094 (2)Co4'—CCp2.067 (5)–2.121 (5)
Co4—C1—C1'—Co4'137.13 (13)Co4—C1—C1'—Co4'134.9 (3)
 

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