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Acta Crystallographica Section E: Structure Reports Online logoLink to Acta Crystallographica Section E: Structure Reports Online
. 2012 Jun 30;68(Pt 7):m1013–m1014. doi: 10.1107/S1600536812029078

([2.2.2]Cryptand-κ6 O)potassium (η4-cyclo­octa­diene)bis­(η2-pyrene)cobaltate(1−) pentane hemisolvate

William W Brennessel a,*, John E Ellis a
PMCID: PMC3393249  PMID: 22807709

Abstract

The cation, anion, and solvent in the title compound, [K(C18H36N2O6)][Co(C8H12)(C16H10)2]·0.5C5H12, are well separated. The pentane solvent mol­ecules are found in channels along [100] and were modeled as disordered over crystallographic inversion centers. Using the mid-points of the coordinated olefins, the angle between the Cpy/Cpy–Co–Cpy/Cpy and the Ccod/Ccod–Co–Ccod/Ccod planes (py is pyrene and cod is cyclo­octa­diene) is 67.6 (2)°. Thus, the overall geometry of the coordination sphere around cobalt is best described as distorted tetra­hedral.

Related literature  

For the synthesis of the precursor mol­ecule, see: Brennessel et al. (2006). For cobalt anions with non-conjugated olefin ligands, see: Jonas (1981, 1984, 1985); Jonas et al. (1976); Jonas & Krüger (1980). For the structure of free pyrene, see: Frampton et al. (2000). For a description of the Cambridge Structural Database, see: Allen (2002).graphic file with name e-68-m1013-scheme1.jpg

Experimental  

Crystal data  

  • [K(C18H36N2O6)][Co(C8H12)(C16H10)2]·0.5C5H12

  • M r = 1023.25

  • Triclinic, Inline graphic

  • a = 12.1007 (9) Å

  • b = 12.9869 (10) Å

  • c = 18.7501 (14) Å

  • α = 72.064 (1)°

  • β = 81.595 (1)°

  • γ = 68.558 (1)°

  • V = 2607.5 (3) Å3

  • Z = 2

  • Mo Kα radiation

  • μ = 0.46 mm−1

  • T = 173 K

  • 0.40 × 0.24 × 0.08 mm

Data collection  

  • Bruker SMART CCD Platform diffractometer

  • Absorption correction: multi-scan (SADABS; Sheldrick, 2008) T min = 0.837, T max = 0.964

  • 29850 measured reflections

  • 11375 independent reflections

  • 7919 reflections with I > 2σ(I)

  • R int = 0.037

Refinement  

  • R[F 2 > 2σ(F 2)] = 0.042

  • wR(F 2) = 0.108

  • S = 1.01

  • 11375 reflections

  • 678 parameters

  • 5 restraints

  • H atoms treated by a mixture of independent and constrained refinement

  • Δρmax = 0.74 e Å−3

  • Δρmin = −0.48 e Å−3

Data collection: SMART (Bruker, 2003); cell refinement: SAINT (Bruker, 2003); data reduction: SAINT; program(s) used to solve structure: SIR97 (Altomare et al., 1999); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: SHELXTL (Sheldrick, 2008); software used to prepare material for publication: SHELXTL.

Supplementary Material

Crystal structure: contains datablock(s) I, global. DOI: 10.1107/S1600536812029078/im2388sup1.cif

e-68-m1013-sup1.cif (71.8KB, cif)

Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536812029078/im2388Isup2.hkl

e-68-m1013-Isup2.hkl (556.1KB, hkl)

Additional supplementary materials: crystallographic information; 3D view; checkCIF report

Acknowledgments

This research was supported by the US National Science Foundation and the donors of the Petroleum Research Fund, administered by the American Chemical Society.

supplementary crystallographic information

Comment

Klaus Jonas had shown that cobalt anions could be ligated solely by olefinic moieties, whether by ethylene itself or by isolobal analogs like 1,5-cyclooctadiene (Jonas et al., 1976; Jonas & Krüger, 1980; Jonas, 1981, 1984, 1985). This led to the possibility that η2-coordinated pyrene ligands could offer a similar stabilization of the metal center. Pyrene is an interesting molecule in that when coordinated η2 through two side carbon atoms (C4/C5 and C20/C21 in figure), it can be behave as a coordinated ethylene ligand with an exo-phenanthrene unit. Thus pyrene could offer the ethylene-type ligation, with the possible bonuses of resonance stabilization energy in the exo-phenanthrene portion and additional electron withdrawing capabilities.

The structure is unique. Of the ten reported transition metal structures to date containing a pyrene or substituted (not by additional fused rings) pyrene ligand (Allen, 2002), only the title compound is mononuclear and has a pyrene-to-transition metal ratio of greater than one. The coordinated ethylene moieties of the pyrene ligands have C–C bond distances of 1.420 (3) and 1.425 (3) Å, which are much longer than the respective distances in free pyrene (average 1.341 Å) (Frampton et al., 2000), and provide evidence of significant back-bonding.

Experimental

Room temperature tetrahydrofuran (THF) was added to a flask containing excess cryptand[2.2.2], excess pyrene, and bright magenta and highly air-sensitive [K(THF)x][Co(η4-1,5-cyclooctadiene)(η4-C10H8)] (Brennessel et al., 2006). The reaction mixture was swirled briefly, layered with pentane, and stored at 0 °C for two days. During that time, purple-black plates formed that were suitable for single-crystal X-ray diffraction.

Refinement

Hydrogen atoms on metal-coordinated carbon atoms were found from the difference Fourier map, and their positional and isotropic displacement parameters were refined independently from those of their respective bonded carbon atoms. All other hydrogen atoms were placed geometrically, and refined relative to their respective bonded carbon atoms: Uiso[H]= 1.5*Ueq[C] for methyl and Uiso[H] = 1.2*Ueq[C] for methylene and aromatic hydrogen atoms.

The cocrystallized pentane solvent molecule is modeled as disordered over a crystallographic inversion center (50:50). Corresponding bond lengths and angles in both directions along the pentane molecule were restrained to be similar. Anisotropic displacement parameters for spatially close symmetry-related atoms were constrained to be equivalent. Bond lengths C59–C60 and C60–C61 were restrained toward ideal distances (1.52 Å).

Figures

Fig. 1.

Fig. 1.

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Molecular structure of the anion showing displacement ellipsoids at the 50% probability level.

Crystal data

[K(C18H36N2O6)][Co(C8H12)(C16H10)2]·0.5C5H12 Z = 2
Mr = 1023.25 F(000) = 1090
Triclinic, P1 Dx = 1.303 Mg m3
Hall symbol: -P 1 Mo Kα radiation, λ = 0.71073 Å
a = 12.1007 (9) Å Cell parameters from 3044 reflections
b = 12.9869 (10) Å θ = 2.5–26.3°
c = 18.7501 (14) Å µ = 0.46 mm1
α = 72.064 (1)° T = 173 K
β = 81.595 (1)° Plate, purple-black
γ = 68.558 (1)° 0.40 × 0.24 × 0.08 mm
V = 2607.5 (3) Å3
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Data collection

Bruker SMART CCD Platform diffractometer 11375 independent reflections
Radiation source: normal-focus sealed tube 7919 reflections with I > 2σ(I)
Graphite monochromator Rint = 0.037
area detector, ω scans per φ θmax = 27.1°, θmin = 1.8°
Absorption correction: multi-scan (SADABS; Sheldrick, 2008) h = −15→15
Tmin = 0.837, Tmax = 0.964 k = −16→16
29850 measured reflections l = −23→23
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Refinement

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)] = 0.042 Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.108 H atoms treated by a mixture of independent and constrained refinement
S = 1.01 w = 1/[σ2(Fo2) + (0.0421P)2 + 1.344P] where P = (Fo2 + 2Fc2)/3
11375 reflections (Δ/σ)max = 0.001
678 parameters Δρmax = 0.74 e Å3
5 restraints Δρmin = −0.48 e Å3
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Special details

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.
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Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq Occ. (<1)
Co1 0.33875 (3) 0.99538 (2) 0.695903 (16) 0.02569 (9)
C1 0.6218 (2) 0.5743 (2) 0.63059 (16) 0.0444 (6)
H1 0.6440 0.5021 0.6202 0.053*
C2 0.6095 (2) 0.6726 (2) 0.57259 (15) 0.0451 (6)
H2 0.6238 0.6679 0.5223 0.054*
C3 0.5761 (2) 0.7792 (2) 0.58711 (14) 0.0386 (6)
H3 0.5707 0.8459 0.5464 0.046*
C4 0.51596 (19) 0.90131 (18) 0.67510 (13) 0.0273 (5)
H4 0.544 (2) 0.958 (2) 0.6390 (13) 0.032 (6)*
C5 0.49812 (19) 0.90716 (18) 0.75050 (12) 0.0264 (5)
H5 0.5152 (18) 0.9648 (19) 0.7633 (12) 0.026 (6)*
C6 0.5048 (2) 0.8047 (2) 0.88655 (13) 0.0362 (5)
H6 0.4812 0.8765 0.8977 0.043*
C7 0.5272 (2) 0.7032 (2) 0.94513 (14) 0.0411 (6)
H7 0.5192 0.7066 0.9956 0.049*
C8 0.5606 (2) 0.5986 (2) 0.93018 (14) 0.0399 (6)
H8 0.5757 0.5302 0.9705 0.048*
C9 0.6059 (2) 0.48408 (19) 0.83857 (16) 0.0409 (6)
H9A 0.6190 0.4150 0.8782 0.049*
C10 0.6191 (2) 0.4786 (2) 0.76748 (16) 0.0413 (6)
H10A 0.6406 0.4057 0.7581 0.050*
C11 0.6017 (2) 0.57987 (19) 0.70492 (15) 0.0354 (5)
C12 0.55070 (19) 0.79043 (19) 0.65970 (13) 0.0296 (5)
C13 0.51646 (18) 0.80227 (18) 0.81235 (12) 0.0268 (5)
C14 0.57259 (19) 0.59134 (19) 0.85637 (14) 0.0336 (5)
C15 0.56647 (18) 0.68839 (18) 0.72026 (13) 0.0289 (5)
C16 0.55072 (18) 0.69424 (18) 0.79645 (13) 0.0281 (5)
C17 0.3968 (3) 1.1287 (2) 0.94023 (15) 0.0476 (7)
H17 0.4196 1.1225 0.9882 0.057*
C18 0.2855 (3) 1.1296 (2) 0.93170 (15) 0.0484 (7)
H18 0.2313 1.1257 0.9737 0.058*
C19 0.2512 (2) 1.1360 (2) 0.86258 (14) 0.0395 (6)
H19 0.1737 1.1367 0.8582 0.047*
C20 0.2928 (2) 1.14793 (18) 0.72689 (13) 0.0289 (5)
H20 0.209 (2) 1.1841 (18) 0.7192 (12) 0.027 (6)*
C21 0.3748 (2) 1.15244 (18) 0.66417 (13) 0.0281 (5)
H21 0.3493 (19) 1.1879 (19) 0.6153 (13) 0.028 (6)*
C22 0.5656 (2) 1.17953 (19) 0.60968 (14) 0.0368 (6)
H22 0.5452 1.1823 0.5619 0.044*
C23 0.6723 (2) 1.1930 (2) 0.61679 (16) 0.0469 (7)
H23 0.7227 1.2065 0.5737 0.056*
C24 0.7055 (2) 1.1870 (2) 0.68517 (17) 0.0467 (7)
H24 0.7789 1.1956 0.6892 0.056*
C25 0.6641 (2) 1.1577 (2) 0.82256 (17) 0.0458 (7)
H25 0.7388 1.1621 0.8282 0.055*
C26 0.5916 (2) 1.1419 (2) 0.88334 (16) 0.0467 (7)
H26 0.6171 1.1338 0.9310 0.056*
C27 0.4768 (2) 1.1370 (2) 0.87815 (14) 0.0385 (6)
C28 0.3279 (2) 1.14161 (18) 0.79916 (13) 0.0297 (5)
C29 0.4885 (2) 1.16202 (17) 0.67139 (13) 0.0294 (5)
C30 0.6317 (2) 1.16822 (19) 0.74938 (15) 0.0378 (6)
C31 0.4425 (2) 1.14376 (18) 0.80709 (13) 0.0307 (5)
C32 0.5217 (2) 1.15711 (17) 0.74237 (13) 0.0303 (5)
C33 0.2752 (2) 0.85817 (19) 0.74074 (13) 0.0321 (5)
H33 0.3383 (19) 0.7945 (19) 0.7704 (12) 0.025 (6)*
C34 0.2124 (2) 0.9475 (2) 0.77208 (14) 0.0320 (5)
H34 0.232 (2) 0.9431 (19) 0.8179 (13) 0.032 (6)*
C35 0.0879 (2) 1.0284 (2) 0.74944 (14) 0.0383 (6)
H35A 0.0660 1.0939 0.7713 0.046*
H35B 0.0309 0.9870 0.7700 0.046*
C36 0.0790 (2) 1.0741 (2) 0.66415 (14) 0.0381 (6)
H36A 0.0534 1.0230 0.6456 0.046*
H36B 0.0175 1.1516 0.6515 0.046*
C37 0.1960 (2) 1.0814 (2) 0.62439 (13) 0.0321 (5)
H37 0.1962 (19) 1.158 (2) 0.6021 (12) 0.031 (6)*
C38 0.2813 (2) 0.9961 (2) 0.59624 (13) 0.0333 (5)
H38 0.332 (2) 1.019 (2) 0.5558 (14) 0.037 (7)*
C39 0.2674 (2) 0.8827 (2) 0.60230 (14) 0.0390 (6)
H39A 0.3438 0.8298 0.5877 0.047*
H39B 0.2073 0.8956 0.5669 0.047*
C40 0.2291 (2) 0.8262 (2) 0.68208 (14) 0.0380 (6)
H40A 0.1413 0.8513 0.6867 0.046*
H40B 0.2600 0.7415 0.6914 0.046*
K1 0.04995 (4) 0.61799 (4) 0.72291 (3) 0.03135 (12)
N1 −0.0702 (2) 0.6880 (2) 0.86364 (12) 0.0449 (5)
N2 0.1725 (2) 0.54589 (18) 0.58168 (12) 0.0440 (5)
O1 −0.11276 (14) 0.84204 (14) 0.70849 (10) 0.0443 (4)
O2 −0.01292 (16) 0.76423 (14) 0.58045 (10) 0.0450 (4)
O3 −0.10080 (14) 0.50457 (14) 0.81502 (9) 0.0385 (4)
O4 0.03226 (14) 0.42536 (14) 0.69175 (9) 0.0396 (4)
O5 0.18022 (16) 0.56685 (16) 0.84697 (10) 0.0502 (5)
O6 0.29744 (15) 0.51687 (14) 0.71414 (11) 0.0453 (4)
C41 −0.1290 (3) 0.8133 (3) 0.84052 (19) 0.0658 (10)
H41A −0.0684 0.8505 0.8332 0.079*
H41B −0.1850 0.8366 0.8814 0.079*
C42 −0.1957 (3) 0.8566 (2) 0.7698 (2) 0.0637 (9)
H42A −0.2497 0.8131 0.7737 0.076*
H42B −0.2442 0.9390 0.7618 0.076*
C43 −0.1721 (2) 0.8815 (2) 0.63935 (19) 0.0577 (8)
H43A −0.2295 0.9605 0.6336 0.069*
H43B −0.2165 0.8307 0.6395 0.069*
C44 −0.0833 (3) 0.8804 (2) 0.57631 (16) 0.0519 (7)
H44A −0.1237 0.9176 0.5280 0.062*
H44B −0.0324 0.9236 0.5795 0.062*
C45 0.0782 (3) 0.7543 (2) 0.52382 (15) 0.0531 (7)
H45A 0.1458 0.7686 0.5379 0.064*
H45B 0.0482 0.8117 0.4759 0.064*
C46 0.1173 (3) 0.6363 (3) 0.51506 (15) 0.0565 (8)
H46A 0.0477 0.6223 0.5035 0.068*
H46B 0.1749 0.6313 0.4719 0.068*
C47 −0.1578 (2) 0.6298 (2) 0.89382 (15) 0.0468 (7)
H47A −0.2306 0.6720 0.8646 0.056*
H47B −0.1794 0.6319 0.9465 0.056*
C48 −0.1122 (2) 0.5073 (2) 0.89102 (14) 0.0442 (6)
H48A −0.0340 0.4667 0.9144 0.053*
H48B −0.1678 0.4677 0.9193 0.053*
C49 −0.0697 (2) 0.3906 (2) 0.80932 (16) 0.0465 (7)
H49A −0.1287 0.3557 0.8380 0.056*
H49B 0.0092 0.3429 0.8306 0.056*
C50 −0.0666 (2) 0.3946 (2) 0.72899 (16) 0.0471 (7)
H50A −0.0595 0.3183 0.7247 0.056*
H50B −0.1409 0.4518 0.7056 0.056*
C51 0.0398 (2) 0.4303 (2) 0.61475 (15) 0.0447 (6)
H51A −0.0247 0.4983 0.5879 0.054*
H51B 0.0312 0.3604 0.6089 0.054*
C52 0.1589 (2) 0.4384 (2) 0.58261 (16) 0.0469 (7)
H52A 0.2222 0.3731 0.6126 0.056*
H52B 0.1693 0.4315 0.5307 0.056*
C53 0.0180 (3) 0.6550 (3) 0.91963 (16) 0.0654 (9)
H53A 0.0243 0.5777 0.9532 0.078*
H53B −0.0096 0.7099 0.9506 0.078*
C54 0.1393 (3) 0.6531 (3) 0.88536 (16) 0.0584 (8)
H54A 0.1344 0.7290 0.8500 0.070*
H54B 0.1946 0.6355 0.9250 0.070*
C55 0.3064 (2) 0.5230 (2) 0.83743 (17) 0.0543 (8)
H55A 0.3427 0.4785 0.8866 0.065*
H55B 0.3375 0.5873 0.8154 0.065*
C56 0.3365 (2) 0.4479 (2) 0.78696 (18) 0.0548 (8)
H56A 0.4234 0.4075 0.7850 0.066*
H56B 0.2972 0.3893 0.8060 0.066*
C57 0.3517 (2) 0.4597 (3) 0.6580 (2) 0.0624 (9)
H57A 0.3403 0.3842 0.6715 0.075*
H57B 0.4381 0.4461 0.6540 0.075*
C58 0.2974 (3) 0.5320 (3) 0.58454 (19) 0.0611 (9)
H58A 0.3043 0.6091 0.5737 0.073*
H58B 0.3433 0.4969 0.5446 0.073*
C59 0.183 (3) 0.834 (3) 1.007 (5) 0.148 (9) 0.50
H59A 0.2137 0.7681 0.9858 0.222* 0.50
H59B 0.1849 0.8064 1.0618 0.222* 0.50
H59C 0.2325 0.8827 0.9882 0.222* 0.50
C60 0.0578 (10) 0.9024 (10) 0.9840 (7) 0.129 (3) 0.50
H60A 0.0081 0.8529 1.0023 0.155* 0.50
H60B 0.0557 0.9294 0.9286 0.155* 0.50
C61 0.008 (3) 1.004 (2) 1.016 (2) 0.153 (7) 0.50
H61A 0.0668 1.0428 1.0119 0.183* 0.50
H61B −0.0209 0.9830 1.0684 0.183* 0.50
C62 −0.0921 (9) 1.0770 (10) 0.9632 (7) 0.129 (3) 0.50
H62A −0.1440 1.0330 0.9635 0.155* 0.50
H62B −0.0604 1.1008 0.9114 0.155* 0.50
C63 −0.162 (3) 1.182 (3) 0.991 (5) 0.148 (9) 0.50
H63A −0.2256 1.2331 0.9567 0.222* 0.50
H63B −0.1083 1.2224 0.9925 0.222* 0.50
H62C −0.1955 1.1572 1.0413 0.222* 0.50
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Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
Co1 0.02717 (16) 0.02066 (15) 0.02826 (17) −0.00811 (12) −0.00491 (12) −0.00371 (12)
C1 0.0376 (14) 0.0356 (14) 0.0643 (18) −0.0045 (11) −0.0036 (13) −0.0286 (14)
C2 0.0409 (15) 0.0491 (16) 0.0461 (16) −0.0058 (12) −0.0005 (12) −0.0263 (13)
C3 0.0384 (14) 0.0371 (14) 0.0368 (14) −0.0086 (11) 0.0005 (11) −0.0115 (11)
C4 0.0273 (11) 0.0222 (11) 0.0303 (12) −0.0082 (9) −0.0020 (9) −0.0042 (9)
C5 0.0268 (11) 0.0190 (10) 0.0338 (12) −0.0076 (9) −0.0040 (9) −0.0066 (9)
C6 0.0386 (13) 0.0345 (13) 0.0342 (13) −0.0121 (11) −0.0044 (11) −0.0068 (10)
C7 0.0415 (15) 0.0479 (16) 0.0292 (13) −0.0159 (12) −0.0030 (11) −0.0022 (11)
C8 0.0327 (13) 0.0375 (14) 0.0386 (14) −0.0140 (11) −0.0045 (11) 0.0085 (11)
C9 0.0308 (13) 0.0206 (12) 0.0623 (18) −0.0095 (10) −0.0080 (12) 0.0049 (11)
C10 0.0308 (13) 0.0227 (12) 0.0690 (19) −0.0075 (10) −0.0039 (12) −0.0116 (12)
C11 0.0269 (12) 0.0265 (12) 0.0542 (16) −0.0062 (10) −0.0062 (11) −0.0144 (11)
C12 0.0246 (11) 0.0290 (12) 0.0348 (13) −0.0073 (9) −0.0033 (9) −0.0097 (10)
C13 0.0229 (11) 0.0252 (11) 0.0314 (12) −0.0080 (9) −0.0050 (9) −0.0051 (9)
C14 0.0226 (11) 0.0266 (12) 0.0467 (15) −0.0100 (9) −0.0053 (10) 0.0005 (10)
C15 0.0216 (11) 0.0247 (11) 0.0396 (13) −0.0067 (9) −0.0039 (9) −0.0078 (10)
C16 0.0228 (11) 0.0231 (11) 0.0361 (13) −0.0083 (9) −0.0041 (9) −0.0031 (9)
C17 0.0661 (19) 0.0477 (16) 0.0332 (14) −0.0197 (14) −0.0066 (13) −0.0145 (12)
C18 0.0608 (18) 0.0502 (16) 0.0365 (15) −0.0205 (14) 0.0084 (13) −0.0178 (13)
C19 0.0411 (14) 0.0371 (14) 0.0423 (15) −0.0147 (11) 0.0022 (11) −0.0138 (11)
C20 0.0268 (12) 0.0210 (11) 0.0372 (13) −0.0064 (9) −0.0051 (10) −0.0060 (9)
C21 0.0332 (12) 0.0199 (11) 0.0281 (12) −0.0075 (9) −0.0054 (10) −0.0023 (9)
C22 0.0399 (14) 0.0279 (12) 0.0399 (14) −0.0131 (11) 0.0016 (11) −0.0049 (10)
C23 0.0414 (15) 0.0397 (15) 0.0590 (18) −0.0194 (12) 0.0114 (13) −0.0121 (13)
C24 0.0343 (14) 0.0372 (14) 0.073 (2) −0.0174 (12) −0.0005 (13) −0.0154 (14)
C25 0.0391 (15) 0.0333 (14) 0.071 (2) −0.0107 (11) −0.0178 (14) −0.0181 (13)
C26 0.0534 (17) 0.0378 (14) 0.0536 (17) −0.0114 (13) −0.0190 (14) −0.0166 (13)
C27 0.0484 (15) 0.0274 (12) 0.0407 (14) −0.0091 (11) −0.0129 (12) −0.0101 (11)
C28 0.0344 (12) 0.0189 (10) 0.0348 (13) −0.0072 (9) −0.0027 (10) −0.0076 (9)
C29 0.0334 (12) 0.0170 (10) 0.0360 (13) −0.0084 (9) 0.0003 (10) −0.0059 (9)
C30 0.0339 (13) 0.0231 (12) 0.0575 (17) −0.0095 (10) −0.0056 (12) −0.0114 (11)
C31 0.0364 (13) 0.0185 (11) 0.0371 (13) −0.0068 (9) −0.0061 (10) −0.0083 (9)
C32 0.0308 (12) 0.0173 (10) 0.0412 (13) −0.0053 (9) −0.0045 (10) −0.0079 (9)
C33 0.0300 (12) 0.0242 (12) 0.0399 (14) −0.0119 (10) −0.0074 (10) 0.0004 (10)
C34 0.0320 (13) 0.0334 (13) 0.0290 (13) −0.0143 (10) −0.0042 (10) −0.0011 (10)
C35 0.0313 (13) 0.0361 (13) 0.0478 (15) −0.0151 (11) −0.0011 (11) −0.0077 (11)
C36 0.0317 (13) 0.0285 (12) 0.0520 (16) −0.0072 (10) −0.0138 (11) −0.0062 (11)
C37 0.0359 (13) 0.0260 (12) 0.0340 (13) −0.0109 (10) −0.0125 (10) −0.0021 (10)
C38 0.0372 (13) 0.0340 (13) 0.0293 (13) −0.0135 (11) −0.0089 (11) −0.0045 (10)
C39 0.0398 (14) 0.0360 (13) 0.0462 (15) −0.0121 (11) −0.0121 (11) −0.0143 (11)
C40 0.0374 (13) 0.0269 (12) 0.0527 (16) −0.0125 (10) −0.0123 (12) −0.0083 (11)
K1 0.0304 (3) 0.0288 (3) 0.0311 (3) −0.0072 (2) −0.0031 (2) −0.0058 (2)
N1 0.0541 (14) 0.0572 (14) 0.0372 (12) −0.0345 (12) 0.0118 (10) −0.0195 (11)
N2 0.0510 (13) 0.0439 (13) 0.0420 (13) −0.0194 (11) 0.0043 (10) −0.0173 (10)
O1 0.0291 (9) 0.0360 (10) 0.0614 (12) −0.0055 (7) 0.0031 (8) −0.0134 (9)
O2 0.0578 (12) 0.0309 (9) 0.0412 (10) −0.0145 (8) −0.0106 (9) 0.0003 (8)
O3 0.0415 (10) 0.0334 (9) 0.0395 (10) −0.0143 (8) −0.0011 (8) −0.0067 (7)
O4 0.0353 (9) 0.0410 (10) 0.0454 (10) −0.0125 (8) −0.0021 (8) −0.0163 (8)
O5 0.0497 (11) 0.0594 (12) 0.0503 (11) −0.0278 (10) −0.0146 (9) −0.0104 (9)
O6 0.0370 (10) 0.0307 (9) 0.0663 (12) −0.0025 (8) −0.0094 (9) −0.0183 (9)
C41 0.081 (2) 0.062 (2) 0.074 (2) −0.0425 (18) 0.0431 (19) −0.0442 (18)
C42 0.0476 (17) 0.0327 (15) 0.095 (3) −0.0077 (13) 0.0281 (17) −0.0180 (16)
C43 0.0347 (15) 0.0352 (15) 0.094 (2) 0.0024 (12) −0.0268 (16) −0.0109 (15)
C44 0.0595 (18) 0.0335 (14) 0.0543 (18) −0.0102 (13) −0.0280 (15) 0.0046 (12)
C45 0.082 (2) 0.0545 (17) 0.0290 (14) −0.0363 (16) −0.0028 (14) −0.0040 (12)
C46 0.088 (2) 0.0606 (19) 0.0351 (15) −0.0396 (17) 0.0019 (15) −0.0178 (14)
C47 0.0507 (16) 0.0560 (17) 0.0419 (15) −0.0296 (14) 0.0136 (12) −0.0181 (13)
C48 0.0436 (15) 0.0506 (16) 0.0384 (15) −0.0226 (13) 0.0011 (12) −0.0054 (12)
C49 0.0453 (16) 0.0315 (13) 0.0586 (18) −0.0144 (12) 0.0001 (13) −0.0062 (12)
C50 0.0397 (15) 0.0414 (15) 0.0662 (19) −0.0168 (12) 0.0005 (13) −0.0208 (14)
C51 0.0484 (16) 0.0406 (15) 0.0500 (16) −0.0123 (12) −0.0100 (13) −0.0189 (12)
C52 0.0529 (17) 0.0426 (15) 0.0490 (16) −0.0129 (13) 0.0004 (13) −0.0231 (13)
C53 0.084 (2) 0.107 (3) 0.0357 (16) −0.067 (2) 0.0149 (15) −0.0278 (17)
C54 0.073 (2) 0.087 (2) 0.0383 (16) −0.0528 (19) −0.0003 (14) −0.0197 (16)
C55 0.0478 (17) 0.0512 (17) 0.0626 (19) −0.0215 (14) −0.0312 (14) 0.0047 (14)
C56 0.0389 (15) 0.0308 (14) 0.089 (2) −0.0071 (12) −0.0277 (15) −0.0038 (15)
C57 0.0299 (14) 0.064 (2) 0.109 (3) −0.0060 (13) 0.0011 (16) −0.059 (2)
C58 0.0556 (19) 0.076 (2) 0.073 (2) −0.0348 (17) 0.0239 (17) −0.0469 (19)
C59 0.184 (12) 0.192 (10) 0.113 (7) −0.120 (11) −0.002 (13) −0.038 (10)
C60 0.092 (5) 0.113 (6) 0.187 (9) −0.004 (4) −0.045 (5) −0.066 (6)
C61 0.074 (10) 0.096 (7) 0.26 (3) −0.044 (7) 0.044 (12) −0.011 (11)
C62 0.092 (5) 0.113 (6) 0.187 (9) −0.004 (4) −0.045 (5) −0.066 (6)
C63 0.184 (12) 0.192 (10) 0.113 (7) −0.120 (11) −0.002 (13) −0.038 (10)
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Geometric parameters (Å, º)

Co1—C34 2.067 (2) K1—O2 2.7810 (17)
Co1—C5 2.078 (2) K1—O6 2.7989 (18)
Co1—C38 2.083 (2) K1—O1 2.8106 (17)
Co1—C33 2.089 (2) K1—O3 2.8208 (17)
Co1—C37 2.091 (2) K1—O4 2.8237 (17)
Co1—C4 2.092 (2) K1—N1 3.048 (2)
Co1—C20 2.093 (2) K1—N2 3.074 (2)
Co1—C21 2.129 (2) N1—C53 1.463 (4)
C1—C2 1.374 (4) N1—C41 1.467 (4)
C1—C11 1.399 (4) N1—C47 1.471 (3)
C1—H1 0.9500 N2—C52 1.459 (3)
C2—C3 1.395 (3) N2—C58 1.463 (4)
C2—H2 0.9500 N2—C46 1.467 (4)
C3—C12 1.391 (3) O1—C42 1.422 (3)
C3—H3 0.9500 O1—C43 1.433 (3)
C4—C5 1.420 (3) O2—C45 1.413 (3)
C4—C12 1.453 (3) O2—C44 1.420 (3)
C4—H4 0.96 (2) O3—C49 1.421 (3)
C5—C13 1.460 (3) O3—C48 1.422 (3)
C5—H5 0.95 (2) O4—C51 1.416 (3)
C6—C13 1.387 (3) O4—C50 1.418 (3)
C6—C7 1.397 (3) O5—C54 1.416 (3)
C6—H6 0.9500 O5—C55 1.427 (3)
C7—C8 1.374 (4) O6—C57 1.420 (3)
C7—H7 0.9500 O6—C56 1.420 (3)
C8—C14 1.399 (3) C41—C42 1.500 (5)
C8—H8 0.9500 C41—H41A 0.9900
C9—C10 1.340 (4) C41—H41B 0.9900
C9—C14 1.432 (3) C42—H42A 0.9900
C9—H9A 0.9500 C42—H42B 0.9900
C10—C11 1.439 (3) C43—C44 1.477 (4)
C10—H10A 0.9500 C43—H43A 0.9900
C11—C15 1.423 (3) C43—H43B 0.9900
C12—C15 1.426 (3) C44—H44A 0.9900
C13—C16 1.423 (3) C44—H44B 0.9900
C14—C16 1.422 (3) C45—C46 1.483 (4)
C15—C16 1.435 (3) C45—H45A 0.9900
C17—C18 1.375 (4) C45—H45B 0.9900
C17—C27 1.405 (4) C46—H46A 0.9900
C17—H17 0.9500 C46—H46B 0.9900
C18—C19 1.387 (4) C47—C48 1.496 (4)
C18—H18 0.9500 C47—H47A 0.9900
C19—C28 1.398 (3) C47—H47B 0.9900
C19—H19 0.9500 C48—H48A 0.9900
C20—C21 1.425 (3) C48—H48B 0.9900
C20—C28 1.448 (3) C49—C50 1.487 (4)
C20—H20 0.97 (2) C49—H49A 0.9900
C21—C29 1.455 (3) C49—H49B 0.9900
C21—H21 0.93 (2) C50—H50A 0.9900
C22—C29 1.392 (3) C50—H50B 0.9900
C22—C23 1.395 (3) C51—C52 1.506 (4)
C22—H22 0.9500 C51—H51A 0.9900
C23—C24 1.370 (4) C51—H51B 0.9900
C23—H23 0.9500 C52—H52A 0.9900
C24—C30 1.404 (4) C52—H52B 0.9900
C24—H24 0.9500 C53—C54 1.509 (4)
C25—C26 1.344 (4) C53—H53A 0.9900
C25—C30 1.435 (4) C53—H53B 0.9900
C25—H25 0.9500 C54—H54A 0.9900
C26—C27 1.432 (4) C54—H54B 0.9900
C26—H26 0.9500 C55—C56 1.480 (4)
C27—C31 1.421 (3) C55—H55A 0.9900
C28—C31 1.427 (3) C55—H55B 0.9900
C29—C32 1.422 (3) C56—H56A 0.9900
C30—C32 1.418 (3) C56—H56B 0.9900
C31—C32 1.440 (3) C57—C58 1.492 (5)
C33—C34 1.383 (3) C57—H57A 0.9900
C33—C40 1.524 (3) C57—H57B 0.9900
C33—H33 0.98 (2) C58—H58A 0.9900
C34—C35 1.519 (3) C58—H58B 0.9900
C34—H34 0.90 (2) C59—C60 1.50 (3)
C35—C36 1.530 (3) C59—H59A 0.9800
C35—H35A 0.9900 C59—H59B 0.9800
C35—H35B 0.9900 C59—H59C 0.9800
C36—C37 1.522 (3) C60—C61 1.504 (9)
C36—H36A 0.9900 C60—H60A 0.9900
C36—H36B 0.9900 C60—H60B 0.9900
C37—C38 1.391 (3) C61—C62 1.507 (9)
C37—H37 0.95 (2) C61—H61A 0.9900
C38—C39 1.511 (3) C61—H61B 0.9900
C38—H38 0.94 (2) C62—C63 1.51 (3)
C39—C40 1.536 (3) C62—H62A 0.9900
C39—H39A 0.9900 C62—H62B 0.9900
C39—H39B 0.9900 C63—H63A 0.9800
C40—H40A 0.9900 C63—H63B 0.9800
C40—H40B 0.9900 C63—H62C 0.9800
K1—O5 2.7735 (18)
C34—Co1—C5 104.80 (9) O5—K1—O3 89.39 (5)
C34—Co1—C38 101.05 (10) O2—K1—O3 121.84 (5)
C5—Co1—C38 132.69 (9) O6—K1—O3 123.64 (5)
C34—Co1—C33 38.88 (9) O1—K1—O3 95.76 (5)
C5—Co1—C33 93.32 (9) O5—K1—O4 114.96 (5)
C38—Co1—C33 82.73 (9) O2—K1—O4 94.50 (5)
C34—Co1—C37 83.55 (10) O6—K1—O4 88.43 (5)
C5—Co1—C37 170.29 (9) O1—K1—O4 131.57 (5)
C38—Co1—C37 38.94 (9) O3—K1—O4 60.80 (5)
C33—Co1—C37 90.20 (9) O5—K1—N1 59.07 (6)
C34—Co1—C4 130.49 (9) O2—K1—N1 121.33 (6)
C5—Co1—C4 39.81 (8) O6—K1—N1 119.57 (6)
C38—Co1—C4 93.94 (9) O1—K1—N1 60.79 (6)
C33—Co1—C4 98.53 (9) O3—K1—N1 60.29 (5)
C37—Co1—C4 130.65 (9) O4—K1—N1 120.75 (5)
C34—Co1—C20 90.25 (9) O5—K1—N2 120.56 (6)
C5—Co1—C20 98.15 (9) O2—K1—N2 59.08 (6)
C38—Co1—C20 120.80 (9) O6—K1—N2 60.08 (6)
C33—Co1—C20 128.96 (9) O1—K1—N2 119.61 (6)
C37—Co1—C20 86.60 (9) O3—K1—N2 119.65 (5)
C4—Co1—C20 121.38 (9) O4—K1—N2 59.13 (5)
C34—Co1—C21 129.33 (9) N1—K1—N2 179.58 (7)
C5—Co1—C21 91.27 (9) C53—N1—C41 110.7 (2)
C38—Co1—C21 102.03 (9) C53—N1—C47 110.0 (2)
C33—Co1—C21 168.19 (9) C41—N1—C47 110.7 (2)
C37—Co1—C21 87.03 (9) C53—N1—K1 110.29 (17)
C4—Co1—C21 91.96 (9) C41—N1—K1 106.74 (16)
C20—Co1—C21 39.43 (9) C47—N1—K1 108.34 (14)
C2—C1—C11 120.4 (2) C52—N2—C58 111.4 (2)
C2—C1—H1 119.8 C52—N2—C46 109.4 (2)
C11—C1—H1 119.8 C58—N2—C46 111.5 (2)
C1—C2—C3 120.4 (2) C52—N2—K1 109.78 (15)
C1—C2—H2 119.8 C58—N2—K1 105.63 (15)
C3—C2—H2 119.8 C46—N2—K1 109.06 (16)
C12—C3—C2 121.7 (2) C42—O1—C43 111.1 (2)
C12—C3—H3 119.2 C42—O1—K1 115.73 (15)
C2—C3—H3 119.2 C43—O1—K1 109.12 (15)
C5—C4—C12 119.7 (2) C45—O2—C44 112.7 (2)
C5—C4—Co1 69.57 (12) C45—O2—K1 116.06 (15)
C12—C4—Co1 122.28 (15) C44—O2—K1 116.55 (15)
C5—C4—H4 117.6 (14) C49—O3—C48 111.70 (19)
C12—C4—H4 115.8 (14) C49—O3—K1 111.61 (14)
Co1—C4—H4 102.8 (14) C48—O3—K1 114.58 (13)
C4—C5—C13 120.27 (19) C51—O4—C50 111.35 (19)
C4—C5—Co1 70.62 (12) C51—O4—K1 115.36 (14)
C13—C5—Co1 122.81 (15) C50—O4—K1 113.36 (14)
C4—C5—H5 119.6 (13) C54—O5—C55 113.6 (2)
C13—C5—H5 112.4 (13) C54—O5—K1 113.55 (16)
Co1—C5—H5 104.0 (13) C55—O5—K1 116.69 (16)
C13—C6—C7 121.0 (2) C57—O6—C56 112.4 (2)
C13—C6—H6 119.5 C57—O6—K1 119.78 (15)
C7—C6—H6 119.5 C56—O6—K1 108.17 (16)
C8—C7—C6 120.4 (2) N1—C41—C42 113.8 (2)
C8—C7—H7 119.8 N1—C41—H41A 108.8
C6—C7—H7 119.8 C42—C41—H41A 108.8
C7—C8—C14 121.0 (2) N1—C41—H41B 108.8
C7—C8—H8 119.5 C42—C41—H41B 108.8
C14—C8—H8 119.5 H41A—C41—H41B 107.7
C10—C9—C14 121.7 (2) O1—C42—C41 108.8 (2)
C10—C9—H9A 119.1 O1—C42—H42A 109.9
C14—C9—H9A 119.1 C41—C42—H42A 109.9
C9—C10—C11 121.9 (2) O1—C42—H42B 109.9
C9—C10—H10A 119.1 C41—C42—H42B 109.9
C11—C10—H10A 119.1 H42A—C42—H42B 108.3
C1—C11—C15 119.6 (2) O1—C43—C44 109.2 (2)
C1—C11—C10 122.2 (2) O1—C43—H43A 109.8
C15—C11—C10 118.1 (2) C44—C43—H43A 109.8
C3—C12—C15 118.1 (2) O1—C43—H43B 109.8
C3—C12—C4 121.9 (2) C44—C43—H43B 109.8
C15—C12—C4 119.9 (2) H43A—C43—H43B 108.3
C6—C13—C16 118.9 (2) O2—C44—C43 108.4 (2)
C6—C13—C5 121.6 (2) O2—C44—H44A 110.0
C16—C13—C5 119.5 (2) C43—C44—H44A 110.0
C8—C14—C16 119.0 (2) O2—C44—H44B 110.0
C8—C14—C9 122.6 (2) C43—C44—H44B 110.0
C16—C14—C9 118.5 (2) H44A—C44—H44B 108.4
C11—C15—C12 119.7 (2) O2—C45—C46 108.4 (2)
C11—C15—C16 119.9 (2) O2—C45—H45A 110.0
C12—C15—C16 120.36 (19) C46—C45—H45A 110.0
C14—C16—C13 119.8 (2) O2—C45—H45B 110.0
C14—C16—C15 119.9 (2) C46—C45—H45B 110.0
C13—C16—C15 120.34 (19) H45A—C45—H45B 108.4
C18—C17—C27 120.1 (2) N2—C46—C45 113.7 (2)
C18—C17—H17 120.0 N2—C46—H46A 108.8
C27—C17—H17 120.0 C45—C46—H46A 108.8
C17—C18—C19 120.9 (3) N2—C46—H46B 108.8
C17—C18—H18 119.5 C45—C46—H46B 108.8
C19—C18—H18 119.5 H46A—C46—H46B 107.7
C18—C19—C28 121.6 (2) N1—C47—C48 112.5 (2)
C18—C19—H19 119.2 N1—C47—H47A 109.1
C28—C19—H19 119.2 C48—C47—H47A 109.1
C21—C20—C28 119.6 (2) N1—C47—H47B 109.1
C21—C20—Co1 71.65 (12) C48—C47—H47B 109.1
C28—C20—Co1 118.60 (15) H47A—C47—H47B 107.8
C21—C20—H20 119.8 (13) O3—C48—C47 109.3 (2)
C28—C20—H20 114.3 (13) O3—C48—H48A 109.8
Co1—C20—H20 104.4 (13) C47—C48—H48A 109.8
C20—C21—C29 119.7 (2) O3—C48—H48B 109.8
C20—C21—Co1 68.92 (12) C47—C48—H48B 109.8
C29—C21—Co1 124.87 (15) H48A—C48—H48B 108.3
C20—C21—H21 121.6 (14) O3—C49—C50 109.0 (2)
C29—C21—H21 110.8 (14) O3—C49—H49A 109.9
Co1—C21—H21 104.6 (14) C50—C49—H49A 109.9
C29—C22—C23 121.1 (2) O3—C49—H49B 109.9
C29—C22—H22 119.4 C50—C49—H49B 109.9
C23—C22—H22 119.4 H49A—C49—H49B 108.3
C24—C23—C22 120.9 (2) O4—C50—C49 108.9 (2)
C24—C23—H23 119.6 O4—C50—H50A 109.9
C22—C23—H23 119.6 C49—C50—H50A 109.9
C23—C24—C30 120.3 (2) O4—C50—H50B 109.9
C23—C24—H24 119.8 C49—C50—H50B 109.9
C30—C24—H24 119.8 H50A—C50—H50B 108.3
C26—C25—C30 121.8 (2) O4—C51—C52 108.4 (2)
C26—C25—H25 119.1 O4—C51—H51A 110.0
C30—C25—H25 119.1 C52—C51—H51A 110.0
C25—C26—C27 121.7 (2) O4—C51—H51B 110.0
C25—C26—H26 119.2 C52—C51—H51B 110.0
C27—C26—H26 119.2 H51A—C51—H51B 108.4
C17—C27—C31 119.4 (2) N2—C52—C51 113.0 (2)
C17—C27—C26 122.2 (2) N2—C52—H52A 109.0
C31—C27—C26 118.3 (2) C51—C52—H52A 109.0
C19—C28—C31 117.8 (2) N2—C52—H52B 109.0
C19—C28—C20 121.9 (2) C51—C52—H52B 109.0
C31—C28—C20 120.3 (2) H52A—C52—H52B 107.8
C22—C29—C32 118.3 (2) N1—C53—C54 113.1 (2)
C22—C29—C21 121.6 (2) N1—C53—H53A 109.0
C32—C29—C21 120.0 (2) C54—C53—H53A 109.0
C24—C30—C32 119.2 (2) N1—C53—H53B 109.0
C24—C30—C25 122.4 (2) C54—C53—H53B 109.0
C32—C30—C25 118.4 (2) H53A—C53—H53B 107.8
C27—C31—C28 120.1 (2) O5—C54—C53 107.3 (2)
C27—C31—C32 120.0 (2) O5—C54—H54A 110.2
C28—C31—C32 119.9 (2) C53—C54—H54A 110.2
C30—C32—C29 120.2 (2) O5—C54—H54B 110.2
C30—C32—C31 119.7 (2) C53—C54—H54B 110.2
C29—C32—C31 120.2 (2) H54A—C54—H54B 108.5
C34—C33—C40 125.4 (2) O5—C55—C56 108.2 (2)
C34—C33—Co1 69.70 (13) O5—C55—H55A 110.1
C40—C33—Co1 113.60 (16) C56—C55—H55A 110.1
C34—C33—H33 116.7 (13) O5—C55—H55B 110.1
C40—C33—H33 113.8 (13) C56—C55—H55B 110.1
Co1—C33—H33 107.1 (12) H55A—C55—H55B 108.4
C33—C34—C35 122.8 (2) O6—C56—C55 108.7 (2)
C33—C34—Co1 71.42 (14) O6—C56—H56A 109.9
C35—C34—Co1 110.95 (15) C55—C56—H56A 109.9
C33—C34—H34 118.5 (15) O6—C56—H56B 109.9
C35—C34—H34 114.8 (15) C55—C56—H56B 109.9
Co1—C34—H34 107.1 (15) H56A—C56—H56B 108.3
C34—C35—C36 111.8 (2) O6—C57—C58 109.4 (2)
C34—C35—H35A 109.3 O6—C57—H57A 109.8
C36—C35—H35A 109.3 C58—C57—H57A 109.8
C34—C35—H35B 109.3 O6—C57—H57B 109.8
C36—C35—H35B 109.3 C58—C57—H57B 109.8
H35A—C35—H35B 107.9 H57A—C57—H57B 108.2
C37—C36—C35 112.64 (19) N2—C58—C57 114.1 (3)
C37—C36—H36A 109.1 N2—C58—H58A 108.7
C35—C36—H36A 109.1 C57—C58—H58A 108.7
C37—C36—H36B 109.1 N2—C58—H58B 108.7
C35—C36—H36B 109.1 C57—C58—H58B 108.7
H36A—C36—H36B 107.8 H58A—C58—H58B 107.6
C38—C37—C36 125.5 (2) C60—C59—H59A 109.5
C38—C37—Co1 70.23 (13) C60—C59—H59B 109.5
C36—C37—Co1 112.29 (16) H59A—C59—H59B 109.5
C38—C37—H37 116.2 (14) C60—C59—H59C 109.5
C36—C37—H37 114.3 (14) H59A—C59—H59C 109.5
Co1—C37—H37 107.3 (14) H59B—C59—H59C 109.5
C37—C38—C39 122.9 (2) C59—C60—C61 111 (2)
C37—C38—Co1 70.83 (13) C59—C60—H60A 109.5
C39—C38—Co1 111.38 (16) C61—C60—H60A 109.5
C37—C38—H38 117.9 (15) C59—C60—H60B 109.5
C39—C38—H38 114.2 (15) C61—C60—H60B 109.5
Co1—C38—H38 109.7 (15) H60A—C60—H60B 108.1
C38—C39—C40 112.1 (2) C60—C61—C62 99.0 (10)
C38—C39—H39A 109.2 C60—C61—H61A 112.0
C40—C39—H39A 109.2 C62—C61—H61A 112.0
C38—C39—H39B 109.2 C60—C61—H61B 112.0
C40—C39—H39B 109.2 C62—C61—H61B 112.0
H39A—C39—H39B 107.9 H61A—C61—H61B 109.6
C33—C40—C39 111.38 (19) C61—C62—C63 107 (3)
C33—C40—H40A 109.4 C61—C62—H62A 110.3
C39—C40—H40A 109.4 C63—C62—H62A 110.3
C33—C40—H40B 109.4 C61—C62—H62B 110.3
C39—C40—H40B 109.4 C63—C62—H62B 110.3
H40A—C40—H40B 108.0 H62A—C62—H62B 108.6
O5—K1—O2 145.58 (6) C62—C63—H63A 109.5
O5—K1—O6 60.69 (6) C62—C63—H63B 109.5
O2—K1—O6 105.31 (6) H63A—C63—H63B 109.5
O5—K1—O1 105.64 (6) C62—C63—H62C 109.5
O2—K1—O1 60.77 (5) H63A—C63—H62C 109.5
O6—K1—O1 135.93 (5) H63B—C63—H62C 109.5
C11—C1—C2—C3 −0.4 (4) C34—Co1—C38—C37 64.93 (15)
C1—C2—C3—C12 −2.1 (4) C5—Co1—C38—C37 −172.78 (14)
C34—Co1—C4—C5 −60.02 (17) C33—Co1—C38—C37 99.40 (15)
C38—Co1—C4—C5 −168.16 (13) C4—Co1—C38—C37 −162.49 (15)
C33—Co1—C4—C5 −84.93 (14) C20—Co1—C38—C37 −32.05 (18)
C37—Co1—C4—C5 177.41 (13) C21—Co1—C38—C37 −69.64 (15)
C20—Co1—C4—C5 61.81 (15) C34—Co1—C38—C39 −53.84 (19)
C21—Co1—C4—C5 89.64 (13) C5—Co1—C38—C39 68.4 (2)
C34—Co1—C4—C12 52.9 (2) C33—Co1—C38—C39 −19.38 (18)
C5—Co1—C4—C12 112.9 (2) C37—Co1—C38—C39 −118.8 (2)
C38—Co1—C4—C12 −55.25 (19) C4—Co1—C38—C39 78.74 (18)
C33—Co1—C4—C12 28.0 (2) C20—Co1—C38—C39 −150.82 (16)
C37—Co1—C4—C12 −69.7 (2) C21—Co1—C38—C39 171.59 (17)
C20—Co1—C4—C12 174.72 (17) C37—C38—C39—C40 −48.1 (3)
C21—Co1—C4—C12 −157.46 (19) Co1—C38—C39—C40 32.3 (2)
C12—C4—C5—C13 1.0 (3) C34—C33—C40—C39 94.8 (3)
Co1—C4—C5—C13 117.4 (2) Co1—C33—C40—C39 13.7 (2)
C12—C4—C5—Co1 −116.3 (2) C38—C39—C40—C33 −29.8 (3)
C34—Co1—C5—C4 137.05 (13) O5—K1—N1—C53 2.07 (17)
C38—Co1—C5—C4 16.17 (18) O2—K1—N1—C53 −137.48 (17)
C33—Co1—C5—C4 99.35 (14) O6—K1—N1—C53 −2.98 (19)
C37—Co1—C5—C4 −11.7 (6) O1—K1—N1—C53 −131.97 (19)
C20—Co1—C5—C4 −130.52 (13) O3—K1—N1—C53 111.19 (19)
C21—Co1—C5—C4 −91.53 (13) O4—K1—N1—C53 104.54 (18)
C34—Co1—C5—C13 22.9 (2) N2—K1—N1—C53 30 (8)
C38—Co1—C5—C13 −98.0 (2) O5—K1—N1—C41 122.41 (19)
C33—Co1—C5—C13 −14.79 (19) O2—K1—N1—C41 −17.15 (19)
C37—Co1—C5—C13 −125.9 (5) O6—K1—N1—C41 117.35 (18)
C4—Co1—C5—C13 −114.1 (2) O1—K1—N1—C41 −11.63 (17)
C20—Co1—C5—C13 115.34 (19) O3—K1—N1—C41 −128.47 (19)
C21—Co1—C5—C13 154.33 (19) O4—K1—N1—C41 −135.13 (17)
C13—C6—C7—C8 −0.4 (4) N2—K1—N1—C41 150 (8)
C6—C7—C8—C14 −0.2 (4) O5—K1—N1—C47 −118.38 (18)
C14—C9—C10—C11 0.6 (4) O2—K1—N1—C47 102.07 (17)
C2—C1—C11—C15 1.1 (4) O6—K1—N1—C47 −123.43 (17)
C2—C1—C11—C10 −176.9 (2) O1—K1—N1—C47 107.59 (18)
C9—C10—C11—C1 176.4 (2) O3—K1—N1—C47 −9.25 (16)
C9—C10—C11—C15 −1.7 (3) O4—K1—N1—C47 −15.91 (19)
C2—C3—C12—C15 3.7 (3) N2—K1—N1—C47 −90 (8)
C2—C3—C12—C4 180.0 (2) O5—K1—N2—C52 97.28 (17)
C5—C4—C12—C3 −176.1 (2) O2—K1—N2—C52 −123.00 (18)
Co1—C4—C12—C3 100.5 (2) O6—K1—N2—C52 102.57 (17)
C5—C4—C12—C15 0.1 (3) O1—K1—N2—C52 −128.64 (16)
Co1—C4—C12—C15 −83.3 (2) O3—K1—N2—C52 −11.49 (18)
C7—C6—C13—C16 0.6 (3) O4—K1—N2—C52 −5.32 (15)
C7—C6—C13—C5 −177.5 (2) N1—K1—N2—C52 69 (8)
C4—C5—C13—C6 177.1 (2) O5—K1—N2—C58 −22.92 (19)
Co1—C5—C13—C6 −97.5 (2) O2—K1—N2—C58 116.80 (19)
C4—C5—C13—C16 −0.9 (3) O6—K1—N2—C58 −17.62 (17)
Co1—C5—C13—C16 84.5 (2) O1—K1—N2—C58 111.16 (18)
C7—C8—C14—C16 0.6 (3) O3—K1—N2—C58 −131.69 (17)
C7—C8—C14—C9 −179.3 (2) O4—K1—N2—C58 −125.51 (19)
C10—C9—C14—C8 −178.7 (2) N1—K1—N2—C58 −51 (8)
C10—C9—C14—C16 1.4 (3) O5—K1—N2—C46 −142.90 (16)
C1—C11—C15—C12 0.7 (3) O2—K1—N2—C46 −3.18 (16)
C10—C11—C15—C12 178.7 (2) O6—K1—N2—C46 −137.61 (18)
C1—C11—C15—C16 −177.3 (2) O1—K1—N2—C46 −8.82 (18)
C10—C11—C15—C16 0.7 (3) O3—K1—N2—C46 108.33 (17)
C3—C12—C15—C11 −3.0 (3) O4—K1—N2—C46 114.50 (18)
C4—C12—C15—C11 −179.3 (2) N1—K1—N2—C46 −171 (71)
C3—C12—C15—C16 175.0 (2) O5—K1—O1—C42 −62.1 (2)
C4—C12—C15—C16 −1.3 (3) O2—K1—O1—C42 152.4 (2)
C8—C14—C16—C13 −0.4 (3) O6—K1—O1—C42 −125.86 (19)
C9—C14—C16—C13 179.5 (2) O3—K1—O1—C42 28.9 (2)
C8—C14—C16—C15 177.9 (2) O4—K1—O1—C42 84.5 (2)
C9—C14—C16—C15 −2.2 (3) N1—K1—O1—C42 −22.24 (19)
C6—C13—C16—C14 −0.2 (3) N2—K1—O1—C42 157.91 (19)
C5—C13—C16—C14 177.91 (19) O5—K1—O1—C43 171.77 (16)
C6—C13—C16—C15 −178.4 (2) O2—K1—O1—C43 26.19 (16)
C5—C13—C16—C15 −0.4 (3) O6—K1—O1—C43 107.97 (17)
C11—C15—C16—C14 1.2 (3) O3—K1—O1—C43 −97.25 (16)
C12—C15—C16—C14 −176.79 (19) O4—K1—O1—C43 −41.72 (18)
C11—C15—C16—C13 179.5 (2) N1—K1—O1—C43 −148.41 (17)
C12—C15—C16—C13 1.5 (3) N2—K1—O1—C43 31.74 (17)
C27—C17—C18—C19 1.4 (4) O5—K1—O2—C45 69.85 (19)
C17—C18—C19—C28 0.2 (4) O6—K1—O2—C45 9.73 (17)
C34—Co1—C20—C21 −172.99 (14) O1—K1—O2—C45 144.18 (17)
C5—Co1—C20—C21 82.02 (14) O3—K1—O2—C45 −138.06 (16)
C38—Co1—C20—C21 −69.95 (16) O4—K1—O2—C45 −79.87 (16)
C33—Co1—C20—C21 −176.96 (13) N1—K1—O2—C45 149.70 (16)
C37—Co1—C20—C21 −89.46 (14) N2—K1—O2—C45 −30.19 (16)
C4—Co1—C20—C21 47.26 (16) O5—K1—O2—C44 −66.6 (2)
C34—Co1—C20—C28 72.67 (19) O6—K1—O2—C44 −126.68 (17)
C5—Co1—C20—C28 −32.32 (19) O1—K1—O2—C44 7.77 (16)
C38—Co1—C20—C28 175.71 (17) O3—K1—O2—C44 85.53 (17)
C33—Co1—C20—C28 68.7 (2) O4—K1—O2—C44 143.72 (17)
C37—Co1—C20—C28 156.20 (19) N1—K1—O2—C44 13.29 (19)
C4—Co1—C20—C28 −67.1 (2) N2—K1—O2—C44 −166.60 (19)
C21—Co1—C20—C28 −114.3 (2) O5—K1—O3—C49 −98.89 (16)
C28—C20—C21—C29 −6.0 (3) O2—K1—O3—C49 96.46 (16)
Co1—C20—C21—C29 −119.04 (19) O6—K1—O3—C49 −45.41 (17)
C28—C20—C21—Co1 113.05 (19) O1—K1—O3—C49 155.45 (15)
C34—Co1—C21—C20 9.08 (18) O4—K1—O3—C49 20.42 (15)
C5—Co1—C21—C20 −101.32 (14) N1—K1—O3—C49 −153.03 (17)
C38—Co1—C21—C20 124.41 (14) N2—K1—O3—C49 26.49 (17)
C33—Co1—C21—C20 11.6 (5) O5—K1—O3—C48 29.32 (15)
C37—Co1—C21—C20 88.25 (14) O2—K1—O3—C48 −135.34 (15)
C4—Co1—C21—C20 −141.14 (14) O6—K1—O3—C48 82.80 (16)
C34—Co1—C21—C29 121.4 (2) O1—K1—O3—C48 −76.35 (15)
C5—Co1—C21—C29 11.0 (2) O4—K1—O3—C48 148.62 (16)
C38—Co1—C21—C29 −123.3 (2) N1—K1—O3—C48 −24.83 (15)
C33—Co1—C21—C29 123.9 (4) N2—K1—O3—C48 154.69 (15)
C37—Co1—C21—C29 −159.5 (2) O5—K1—O4—C51 −140.78 (15)
C4—Co1—C21—C29 −28.8 (2) O2—K1—O4—C51 20.90 (15)
C20—Co1—C21—C29 112.3 (2) O6—K1—O4—C51 −84.34 (15)
C29—C22—C23—C24 1.4 (4) O1—K1—O4—C51 75.10 (16)
C22—C23—C24—C30 −0.6 (4) O3—K1—O4—C51 145.11 (16)
C30—C25—C26—C27 −1.3 (4) N1—K1—O4—C51 151.73 (15)
C18—C17—C27—C31 −1.3 (4) N2—K1—O4—C51 −28.74 (15)
C18—C17—C27—C26 177.0 (2) O5—K1—O4—C50 89.16 (16)
C25—C26—C27—C17 −175.4 (2) O2—K1—O4—C50 −109.16 (16)
C25—C26—C27—C31 3.0 (4) O6—K1—O4—C50 145.60 (16)
C18—C19—C28—C31 −1.7 (3) O1—K1—O4—C50 −54.96 (18)
C18—C19—C28—C20 179.8 (2) O3—K1—O4—C50 15.05 (15)
C21—C20—C28—C19 −179.5 (2) N1—K1—O4—C50 21.67 (18)
Co1—C20—C28—C19 −95.4 (2) N2—K1—O4—C50 −158.80 (17)
C21—C20—C28—C31 2.1 (3) O2—K1—O5—C54 65.8 (2)
Co1—C20—C28—C31 86.2 (2) O6—K1—O5—C54 139.32 (17)
C23—C22—C29—C32 −0.6 (3) O1—K1—O5—C54 5.02 (17)
C23—C22—C29—C21 177.5 (2) O3—K1—O5—C54 −90.79 (16)
C20—C21—C29—C22 −172.8 (2) O4—K1—O5—C54 −147.89 (16)
Co1—C21—C29—C22 103.4 (2) N1—K1—O5—C54 −35.64 (16)
C20—C21—C29—C32 5.3 (3) N2—K1—O5—C54 144.59 (16)
Co1—C21—C29—C32 −78.6 (2) O2—K1—O5—C55 −69.2 (2)
C23—C24—C30—C32 −0.9 (4) O6—K1—O5—C55 4.30 (16)
C23—C24—C30—C25 178.0 (2) O1—K1—O5—C55 −129.99 (17)
C26—C25—C30—C24 178.7 (2) O3—K1—O5—C55 134.19 (17)
C26—C25—C30—C32 −2.4 (4) O4—K1—O5—C55 77.09 (17)
C17—C27—C31—C28 −0.3 (3) N1—K1—O5—C55 −170.66 (19)
C26—C27—C31—C28 −178.7 (2) N2—K1—O5—C55 9.57 (19)
C17—C27—C31—C32 177.4 (2) O5—K1—O6—C57 160.2 (2)
C26—C27—C31—C32 −1.0 (3) O2—K1—O6—C57 −54.1 (2)
C19—C28—C31—C27 1.8 (3) O1—K1—O6—C57 −117.6 (2)
C20—C28—C31—C27 −179.7 (2) O3—K1—O6—C57 93.0 (2)
C19—C28—C31—C32 −175.9 (2) O4—K1—O6—C57 40.2 (2)
C20—C28—C31—C32 2.6 (3) N1—K1—O6—C57 165.1 (2)
C24—C30—C32—C29 1.6 (3) N2—K1—O6—C57 −14.6 (2)
C25—C30—C32—C29 −177.3 (2) O5—K1—O6—C56 29.56 (14)
C24—C30—C32—C31 −176.8 (2) O2—K1—O6—C56 175.36 (14)
C25—C30—C32—C31 4.3 (3) O1—K1—O6—C56 111.79 (15)
C22—C29—C32—C30 −0.9 (3) O3—K1—O6—C56 −37.59 (16)
C21—C29—C32—C30 −179.02 (19) O4—K1—O6—C56 −90.40 (15)
C22—C29—C32—C31 177.51 (19) N1—K1—O6—C56 34.53 (16)
C21—C29—C32—C31 −0.6 (3) N2—K1—O6—C56 −145.21 (16)
C27—C31—C32—C30 −2.6 (3) C53—N1—C41—C42 164.6 (2)
C28—C31—C32—C30 175.10 (19) C47—N1—C41—C42 −73.2 (3)
C27—C31—C32—C29 179.0 (2) K1—N1—C41—C42 44.5 (3)
C28—C31—C32—C29 −3.3 (3) C43—O1—C42—C41 179.6 (2)
C5—Co1—C33—C34 109.61 (15) K1—O1—C42—C41 54.4 (3)
C38—Co1—C33—C34 −117.76 (15) N1—C41—C42—O1 −69.1 (3)
C37—Co1—C33—C34 −79.44 (15) C42—O1—C43—C44 171.9 (2)
C4—Co1—C33—C34 149.32 (14) K1—O1—C43—C44 −59.3 (2)
C20—Co1—C33—C34 6.34 (19) C45—O2—C44—C43 −177.7 (2)
C21—Co1—C33—C34 −3.1 (5) K1—O2—C44—C43 −39.9 (3)
C34—Co1—C33—C40 120.8 (2) O1—C43—C44—O2 67.6 (3)
C5—Co1—C33—C40 −129.62 (17) C44—O2—C45—C46 −160.0 (2)
C38—Co1—C33—C40 3.01 (17) K1—O2—C45—C46 62.0 (2)
C37—Co1—C33—C40 41.32 (18) C52—N2—C46—C45 154.5 (2)
C4—Co1—C33—C40 −89.91 (17) C58—N2—C46—C45 −81.8 (3)
C20—Co1—C33—C40 127.11 (17) K1—N2—C46—C45 34.4 (3)
C21—Co1—C33—C40 117.6 (4) O2—C45—C46—N2 −64.5 (3)
C40—C33—C34—C35 −1.7 (4) C53—N1—C47—C48 −79.0 (3)
Co1—C33—C34—C35 103.4 (2) C41—N1—C47—C48 158.4 (2)
C40—C33—C34—Co1 −105.1 (2) K1—N1—C47—C48 41.6 (3)
C5—Co1—C34—C33 −76.58 (15) C49—O3—C48—C47 −173.9 (2)
C38—Co1—C34—C33 63.42 (15) K1—O3—C48—C47 58.0 (2)
C37—Co1—C34—C33 98.38 (15) N1—C47—C48—O3 −68.9 (3)
C4—Co1—C34—C33 −41.57 (19) C48—O3—C49—C50 176.5 (2)
C20—Co1—C34—C33 −175.08 (15) K1—O3—C49—C50 −53.7 (2)
C21—Co1—C34—C33 179.17 (14) C51—O4—C50—C49 179.9 (2)
C5—Co1—C34—C35 164.53 (16) K1—O4—C50—C49 −48.0 (2)
C38—Co1—C34—C35 −55.47 (18) O3—C49—C50—O4 69.8 (3)
C33—Co1—C34—C35 −118.9 (2) C50—O4—C51—C52 −168.2 (2)
C37—Co1—C34—C35 −20.52 (17) K1—O4—C51—C52 60.8 (2)
C4—Co1—C34—C35 −160.47 (15) C58—N2—C52—C51 153.5 (2)
C20—Co1—C34—C35 66.03 (18) C46—N2—C52—C51 −82.7 (3)
C21—Co1—C34—C35 60.3 (2) K1—N2—C52—C51 36.9 (3)
C33—C34—C35—C36 −48.3 (3) O4—C51—C52—N2 −66.1 (3)
Co1—C34—C35—C36 32.6 (2) C41—N1—C53—C54 −89.0 (3)
C34—C35—C36—C37 −29.0 (3) C47—N1—C53—C54 148.4 (3)
C35—C36—C37—C38 93.0 (3) K1—N1—C53—C54 29.0 (3)
C35—C36—C37—Co1 12.0 (2) C55—O5—C54—C53 −156.5 (2)
C34—Co1—C37—C38 −116.53 (16) K1—O5—C54—C53 67.0 (3)
C5—Co1—C37—C38 33.2 (6) N1—C53—C54—O5 −63.6 (3)
C33—Co1—C37—C38 −78.14 (15) C54—O5—C55—C56 −171.3 (2)
C4—Co1—C37—C38 23.31 (19) K1—O5—C55—C56 −36.3 (3)
C20—Co1—C37—C38 152.83 (15) C57—O6—C56—C55 162.8 (2)
C21—Co1—C37—C38 113.34 (15) K1—O6—C56—C55 −62.7 (2)
C34—Co1—C37—C36 4.76 (17) O5—C55—C56—O6 67.6 (3)
C5—Co1—C37—C36 154.5 (5) C56—O6—C57—C58 174.1 (2)
C38—Co1—C37—C36 121.3 (2) K1—O6—C57—C58 45.4 (3)
C33—Co1—C37—C36 43.15 (17) C52—N2—C58—C57 −69.6 (3)
C4—Co1—C37—C36 144.60 (15) C46—N2—C58—C57 167.9 (2)
C20—Co1—C37—C36 −85.88 (17) K1—N2—C58—C57 49.5 (3)
C21—Co1—C37—C36 −125.37 (17) O6—C57—C58—N2 −66.3 (3)
C36—C37—C38—C39 −0.2 (4) C59—C60—C61—C62 160 (4)
Co1—C37—C38—C39 103.6 (2) C60—C61—C62—C63 175 (3)
C36—C37—C38—Co1 −103.8 (2)
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Footnotes

Supplementary data and figures for this paper are available from the IUCr electronic archives (Reference: IM2388).

References

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Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Supplementary Materials

Crystal structure: contains datablock(s) I, global. DOI: 10.1107/S1600536812029078/im2388sup1.cif

e-68-m1013-sup1.cif (71.8KB, cif)

Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536812029078/im2388Isup2.hkl

e-68-m1013-Isup2.hkl (556.1KB, hkl)

Additional supplementary materials: crystallographic information; 3D view; checkCIF report

Articles from Acta Crystallographica Section E: Structure Reports Online are provided here courtesy of International Union of Crystallography

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