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Acta Crystallographica Section E: Structure Reports Online logoLink to Acta Crystallographica Section E: Structure Reports Online
. 2012 Sep 15;68(Pt 10):m1262–m1263. doi: 10.1107/S1600536812038317

(2.2.2-Cryptand)potassium bis­(cyanato-κN)(5,10,15,20-tetra­phenyl­por­phy­rin­ato-κ4 N)cobaltate(III) chloro­benzene hemisolvate

Bader Belhaj Ali a, Mohamed Salah Belkhiria a, Jean-Claude Daran b, Habib Nasri a,*
PMCID: PMC3470147  PMID: 23125591

Abstract

In the title compound, [K(C18H36N2O6)][Co(NCO)2(C44H28N4)]·0.5C6H5Cl or [K(2,2,2-crypt)+][CoIII(NCO)2(TPP)]·0.5C6H5Cl, the CoIII ion is octa­hedrally coordin­ated by two axial N-bonded NCO anions and four pyrrole N atoms of the porphyrin. There is a major ruffling distortion of the porphyrin: the dihedral angles between trans pyrrole rings are 34.32 (14) and 34.72 (14)°. The potassium ion is coordinated by the six O atoms and two N atoms of the cryptand-222 mol­ecule and a weak K—O [3.407 (3) Å] bond to one of the cyanate O atoms also occurs. The packing also features weak C—H⋯O and C—H⋯π inter­actions. The contribution to the scattering of the disordered chloro­benzene solvent mol­ecules was removed with the SQUEEZE function in PLATON [Spek (2009). Acta Cryst. D65, 148–155].

Related literature  

For general background to cobalt and iron porphyrin species and their applications, see: Sanders et al. (2000); Dhifet et al. (2010); Mansour et al. (2010). For the synthesis of the [CoII(TPP)] complex, see: Madure & Scheidt (1976). For the synthesis of CoII tetra­phenyl­porphyrins, see: Iimuna et al. (1988). For refinement details concerning the use of SQUEEZE, see: Spek (2009). For related structures, see: Englert et al. (2002); Bresciani-Pahor et al. (1990); Ali et al. (2011); Konarev et al. (2003). For a description of the Cambridge Structural Database, see: Allen (2002). For further details of geometric distortions in related compounds, see: Jentzen et al. (1997).graphic file with name e-68-m1262-scheme1.jpg

Experimental  

Crystal data  

  • [K(C18H36N2O6)][Co(NCO)2(C44H28N4)]·0.5C6H5Cl

  • M r = 1227.63

  • Monoclinic, Inline graphic

  • a = 14.7716 (5) Å

  • b = 23.7255 (9) Å

  • c = 18.0458 (7) Å

  • β = 90.325 (3)°

  • V = 6324.3 (4) Å3

  • Z = 4

  • Mo Kα radiation

  • μ = 0.42 mm−1

  • T = 180 K

  • 0.45 × 0.37 × 0.36 mm

Data collection  

  • Agilent Xcalibur Sapphire2 diffractometer

  • Absorption correction: multi-scan (CrysAlis PRO; Agilent, 2010) T min = 0.770, T max = 1.000

  • 32355 measured reflections

  • 11118 independent reflections

  • 8660 reflections with I > 2σ(I)

  • R int = 0.041

Refinement  

  • R[F 2 > 2σ(F 2)] = 0.045

  • wR(F 2) = 0.122

  • S = 1.08

  • 11118 reflections

  • 744 parameters

  • H-atom parameters constrained

  • Δρmax = 0.48 e Å−3

  • Δρmin = −0.44 e Å−3

Data collection: CrysAlis PRO (Agilent, 2010); cell refinement: CrysAlis PRO; data reduction: CrysAlis PRO; program(s) used to solve structure: SIR2004 (Burla et al., 2005); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: ORTEPIII (Burnett & Johnson, 1996) and ORTEP-3 (Farrugia, 1997); software used to prepare material for publication: SHELXL97.

Supplementary Material

Crystal structure: contains datablock(s) I, New_Global_Publ_Block. DOI: 10.1107/S1600536812038317/hb6905sup1.cif

e-68-m1262-sup1.cif (40KB, cif)

Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536812038317/hb6905Isup2.hkl

e-68-m1262-Isup2.hkl (641.3KB, hkl)

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

Table 1. Selected bond lengths (Å).

Co1—N6 1.905 (2)
Co1—N5 1.919 (2)
Co1—N1 1.9454 (19)
Co1—N4 1.947 (2)
Co1—N2 1.952 (2)
Co1—N3 1.9567 (19)
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Table 2. Hydrogen-bond geometry (Å, °).

Cg2 and Cg4 are the centroids of the N2/C6–C9 and N4/C16–C19 rings, respectively.

D—H⋯A D—H H⋯A DA D—H⋯A
C50—H50A⋯O2i 0.97 2.59 3.555 (4) 171
C57—H57BCg2 0.97 2.83 3.783 (4) 168
C60—H60BCg4ii 0.97 2.60 3.437 (3) 145
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Symmetry codes: (i) Inline graphic; (ii) Inline graphic.

Acknowledgments

The authors gratefully acknowledge financial support from the Ministry of Higher Education and Scientific Research of Tunisia.

supplementary crystallographic information

Comment

Iron and cobalt porphyrin complexes have been used for many decades as biomimetic models for hemoproteines. These species are actually used in a variety of others domains (i.e.; catalysis, bio-sensors). Several iron and cobalt metalloporphyrins have been synthesized and characterized by our group (Dhifet et al., 2010; Mansour et al., 2010).

We report herein on the molecular structure of the title compound for which the asymmetric unit contains one ion complex [CoIII(TPP)(NCO)2]-, the [K(2,2,2-crypt)]+ counterion and one half chlorobenzene solvent. For (I), the cobalt is coordinated to the four N atoms of the porphyrin ring and the N atoms from the two NCO-trans axial ligands (Fig.1). The two axial Co–N(NCO) bond lengths for (I) [1.905 (2) and 1.919 (2) Å] are in the range [1.898 (6) - 1.936 (7) Å] found for six-coordinated Co(III) complexes (CSD refcodes IFUVOU; Englert et al., 2002 and KEYMEC; Bresciani-Pahor et al., 1990) (CSD, version 5.32; Allen, 2002).

As seen in figure 1, the oxygen atom O2 of one cyanato-N axial ligand is weakly bonded to the potassium of the counterion [K(2,2,2-crypt)]+ with a distance of 3.407 (3) Å. The average K–O(2,2,2-crypt) distance is 2.831 (2) Å and the average K–N(2,2,2-crypt) bond length is 3.016 (2) Å.The porphyrin core is far from being planar, with deviations of atoms from the least-squares plane of CoN4C20, ranging from -0.586 (2) to 0.607 (2) Å. It is noteworthy the relationship between the ruffling of the porphyrin core and the mean equatorial Co—Np distance; the CoN4C20 moiety is ruffled as the Co—Np distance decreases, (Iimuna et al., 1988). Thus, the practically planar porphyrin core of the ion complex [Co(OEP)(NO2)2]- (OEP is the octaethylporphyrin) (Ali et al., 2011) presents a Co—Np of 1.988 (2) Å while for the very ruffled structure[CoII(TPP)] (Konarev et al., 2003) the Co—Np bond length value is 1.923 (4) Å. Therefore, the Co—Np distance of (I) [1.950 (2) Å] is normal for a cobalt ruffled TPP complex. On the other hand Normal Structural Decomposition (NSD) calculations (Jentzen, et al.,1997) confirm the unusually important deformation of the porphyrin core with a major ruffling distortions of 78%.

The crystal packing features weak C—H······π interactions (Table 1 and Fig. 2)

Experimental

The reaction of the [CoII(TPP)] complex (Madure & Scheidt, 1976) (15 mg, 0.022 mmol) with an excess of potasium cyanate KOCN (50 mg, 0.62 mmol) and cryptand-222 (50 mg, 0.13 mmol) in chlorobenzene (4 ml) under air overnight give a red-brown solution. Dark purple prisms of the title complex were obtained by diffusion of hexanes through the chlorobenzene solution.

Refinement

Hydrogen atoms were placed using assumed geometrically idealized positions (C—H aromatic = 0.95 Å) and constrained to ride on their parent atoms, with U(H) = 1.2 Ueq(C).

There are four cavities of 224 Å3 each. PLATON estimated that each cavity contains 33 electrons which may correspond to a half solvent molecule of chlorobenzene by asymmetric unit as suggested by chemical analyses. These residual electron density was difficult to modelize and therefore, the SQUEEZE function of PLATON (Spek, 2009) was used to eliminate the contribution of the electron density in the solvent region from the intensity data, and the solvent-free model was employed for the final refinement.

Figures

Fig. 1.

Fig. 1.

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A view of the structure of (I). Displacement ellipsoids are drawn at 50% and H atoms have been omitted for clarity.

Fig. 2.

Fig. 2.

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A unit-cell packing of (I). The H atoms have been omitted for clarity.

Crystal data

[K(C18H36N2O6)][Co(NCO)2(C44H28N4)]·0.5C6H5Cl F(000) = 2572
Mr = 1227.63 Dx = 1.289 Mg m3
Monoclinic, P21/n Mo Kα radiation, λ = 0.71073 Å
Hall symbol: -P 2yn Cell parameters from 15544 reflections
a = 14.7716 (5) Å θ = 2.9–28.5°
b = 23.7255 (9) Å µ = 0.42 mm1
c = 18.0458 (7) Å T = 180 K
β = 90.325 (3)° Prism, dark purple
V = 6324.3 (4) Å3 0.45 × 0.37 × 0.36 mm
Z = 4
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Data collection

Agilent Xcalibur Sapphire2 diffractometer 11118 independent reflections
Radiation source: fine-focus sealed tube 8660 reflections with I > 2σ(I)
Graphite monochromator Rint = 0.041
Detector resolution: 8.2632 pixels mm-1 θmax = 25.4°, θmin = 2.9°
ω scans h = −17→17
Absorption correction: multi-scan (CrysAlis PRO; Agilent, 2010) k = −28→28
Tmin = 0.770, Tmax = 1.000 l = −21→21
32355 measured reflections
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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)] = 0.045 Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.122 H-atom parameters constrained
S = 1.08 w = 1/[σ2(Fo2) + (0.059P)2 + 2.0072P] where P = (Fo2 + 2Fc2)/3
11118 reflections (Δ/σ)max = 0.001
744 parameters Δρmax = 0.48 e Å3
0 restraints Δρmin = −0.44 e Å3
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Special details

Geometry. All s.u.'s (except the s.u. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell s.u.'s are taken into account individually in the estimation of s.u.'s in distances, angles and torsion angles; correlations between s.u.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell s.u.'s is used for estimating s.u.'s involving l.s. planes.
Refinement. Refinement of F\^2\^ against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F\^2\^, conventional R-factors R are based on F, with F set to zero for negative F\^2\^. The threshold expression of F\^2\^ > σ(F\^2\^) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F\^2\^ 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
Co1 0.41746 (2) 0.303450 (12) 0.765205 (17) 0.01882 (9)
C1 0.47891 (17) 0.39649 (9) 0.86413 (13) 0.0235 (5)
C2 0.44331 (18) 0.43899 (10) 0.91286 (14) 0.0276 (6)
H2 0.4767 0.4632 0.9429 0.033*
C3 0.35298 (19) 0.43709 (10) 0.90664 (14) 0.0294 (6)
H3 0.3121 0.4605 0.9306 0.035*
C4 0.33076 (17) 0.39238 (9) 0.85634 (13) 0.0230 (5)
C5 0.24276 (17) 0.37482 (10) 0.84014 (13) 0.0253 (5)
C6 0.22553 (17) 0.32218 (10) 0.80872 (13) 0.0244 (5)
C7 0.13941 (18) 0.29475 (11) 0.80660 (14) 0.0299 (6)
H7 0.0839 0.3110 0.8179 0.036*
C8 0.15321 (18) 0.24125 (11) 0.78530 (14) 0.0293 (6)
H8 0.1098 0.2129 0.7820 0.035*
C9 0.24770 (17) 0.23612 (10) 0.76861 (13) 0.0238 (5)
C10 0.28527 (17) 0.19042 (10) 0.73197 (13) 0.0241 (5)
C11 0.36628 (17) 0.19416 (9) 0.69492 (13) 0.0224 (5)
C12 0.39758 (18) 0.15473 (10) 0.64005 (14) 0.0278 (6)
H12 0.3709 0.1204 0.6282 0.033*
C13 0.47214 (18) 0.17655 (10) 0.60926 (14) 0.0270 (6)
H13 0.5048 0.1612 0.5702 0.032*
C14 0.49231 (17) 0.22821 (9) 0.64795 (13) 0.0223 (5)
C15 0.57212 (17) 0.25833 (10) 0.64124 (13) 0.0235 (5)
C16 0.59676 (17) 0.29995 (9) 0.69188 (13) 0.0223 (5)
C17 0.68682 (17) 0.32199 (10) 0.69911 (14) 0.0264 (5)
H17 0.7355 0.3143 0.6682 0.032*
C18 0.68778 (17) 0.35588 (10) 0.75877 (13) 0.0264 (5)
H18 0.7376 0.3752 0.7777 0.032*
C19 0.59776 (16) 0.35666 (9) 0.78786 (13) 0.0225 (5)
C20 0.56930 (17) 0.39076 (10) 0.84542 (13) 0.0238 (5)
C21 0.16630 (17) 0.41203 (10) 0.86122 (14) 0.0281 (6)
C22 0.10054 (19) 0.39637 (13) 0.91157 (16) 0.0397 (7)
H22 0.1044 0.3617 0.9353 0.048*
C23 0.0292 (2) 0.43226 (16) 0.92653 (19) 0.0533 (9)
H23 −0.0150 0.4214 0.9601 0.064*
C24 0.0229 (2) 0.48400 (15) 0.8922 (2) 0.0578 (10)
H24 −0.0255 0.5078 0.9024 0.069*
C25 0.0885 (2) 0.50028 (13) 0.84275 (19) 0.0481 (8)
H25 0.0849 0.5353 0.8198 0.058*
C26 0.15956 (19) 0.46445 (11) 0.82740 (16) 0.0346 (6)
H26 0.2037 0.4756 0.7939 0.042*
C27 0.23115 (17) 0.13731 (10) 0.72881 (14) 0.0249 (5)
C28 0.22305 (19) 0.10503 (11) 0.79248 (15) 0.0319 (6)
H28 0.2524 0.1162 0.8358 0.038*
C29 0.17119 (19) 0.05600 (11) 0.79182 (16) 0.0360 (6)
H29 0.1659 0.0346 0.8348 0.043*
C30 0.12785 (19) 0.03908 (11) 0.72810 (16) 0.0372 (7)
H30 0.0932 0.0064 0.7277 0.045*
C31 0.1362 (2) 0.07110 (12) 0.66462 (17) 0.0407 (7)
H31 0.1074 0.0597 0.6212 0.049*
C32 0.1868 (2) 0.11986 (11) 0.66523 (15) 0.0353 (6)
H32 0.1911 0.1413 0.6223 0.042*
C33 0.63888 (17) 0.24296 (10) 0.58356 (13) 0.0254 (5)
C34 0.68263 (19) 0.19139 (11) 0.58344 (14) 0.0332 (6)
H34 0.6677 0.1645 0.6188 0.040*
C35 0.7481 (2) 0.17922 (13) 0.53169 (16) 0.0416 (7)
H35 0.7769 0.1444 0.5324 0.050*
C36 0.7708 (2) 0.21855 (14) 0.47908 (16) 0.0420 (7)
H36 0.8150 0.2104 0.4442 0.050*
C37 0.7283 (2) 0.26982 (14) 0.47815 (15) 0.0417 (7)
H37 0.7439 0.2965 0.4427 0.050*
C38 0.66182 (18) 0.28206 (11) 0.52997 (14) 0.0306 (6)
H38 0.6326 0.3168 0.5286 0.037*
C39 0.63795 (17) 0.42845 (11) 0.88148 (14) 0.0284 (6)
C40 0.6803 (2) 0.41314 (13) 0.94660 (16) 0.0444 (7)
H40 0.6640 0.3799 0.9703 0.053*
C41 0.7472 (2) 0.44727 (16) 0.9770 (2) 0.0573 (10)
H41 0.7760 0.4363 1.0206 0.069*
C42 0.7712 (2) 0.49646 (18) 0.9438 (2) 0.0615 (11)
H42 0.8163 0.5190 0.9644 0.074*
C43 0.7286 (3) 0.51238 (17) 0.8804 (2) 0.0758 (13)
H43 0.7441 0.5462 0.8578 0.091*
C44 0.6618 (3) 0.47817 (14) 0.84890 (19) 0.0600 (10)
H44 0.6333 0.4894 0.8053 0.072*
C45 0.4371 (2) 0.21365 (13) 0.87625 (18) 0.0491 (8)
C46 0.38075 (19) 0.39021 (11) 0.64692 (15) 0.0335 (6)
C47 0.3658 (2) 0.27299 (13) 0.4394 (2) 0.0548 (9)
H47A 0.3628 0.2686 0.3860 0.066*
H47B 0.3846 0.2371 0.4603 0.066*
C48 0.4367 (2) 0.31679 (14) 0.4579 (2) 0.0562 (9)
H48A 0.4383 0.3232 0.5110 0.067*
H48B 0.4959 0.3035 0.4427 0.067*
C49 0.4834 (2) 0.40924 (16) 0.4333 (2) 0.0605 (10)
H49A 0.5414 0.3954 0.4163 0.073*
H49B 0.4884 0.4170 0.4860 0.073*
C50 0.4594 (2) 0.46173 (16) 0.3930 (2) 0.0612 (10)
H50A 0.5095 0.4881 0.3954 0.073*
H50B 0.4473 0.4532 0.3413 0.073*
C51 0.3611 (2) 0.53924 (13) 0.39513 (19) 0.0509 (8)
H51A 0.3442 0.5353 0.3434 0.061*
H51B 0.4135 0.5638 0.3983 0.061*
C52 0.2841 (2) 0.56410 (13) 0.43784 (19) 0.0514 (9)
H52A 0.3003 0.5646 0.4900 0.062*
H52B 0.2757 0.6029 0.4222 0.062*
C53 0.1342 (3) 0.55264 (13) 0.4859 (2) 0.0576 (9)
H53A 0.0732 0.5432 0.4699 0.069*
H53B 0.1378 0.5933 0.4906 0.069*
C54 0.1513 (3) 0.52678 (15) 0.5594 (2) 0.0592 (10)
H54A 0.2147 0.5311 0.5726 0.071*
H54B 0.1153 0.5457 0.5966 0.071*
C55 0.1432 (3) 0.44287 (19) 0.62748 (18) 0.0674 (11)
H55A 0.1043 0.4601 0.6642 0.081*
H55B 0.2056 0.4482 0.6430 0.081*
C56 0.1229 (3) 0.38185 (19) 0.6216 (2) 0.0713 (12)
H56A 0.1225 0.3651 0.6706 0.086*
H56B 0.0636 0.3765 0.5994 0.086*
C57 0.1897 (3) 0.29637 (16) 0.5833 (2) 0.0693 (11)
H57A 0.1350 0.2812 0.5610 0.083*
H57B 0.1908 0.2856 0.6351 0.083*
C58 0.2706 (3) 0.27272 (14) 0.54518 (19) 0.0585 (10)
H58A 0.3246 0.2867 0.5698 0.070*
H58B 0.2699 0.2320 0.5506 0.070*
C59 0.2074 (2) 0.25531 (12) 0.4243 (2) 0.0550 (9)
H59A 0.1514 0.2554 0.4520 0.066*
H59B 0.2269 0.2164 0.4194 0.066*
C60 0.1894 (2) 0.27852 (12) 0.34906 (18) 0.0494 (8)
H60A 0.2447 0.2786 0.3204 0.059*
H60B 0.1453 0.2552 0.3235 0.059*
C61 0.1234 (3) 0.35410 (14) 0.28719 (18) 0.0569 (9)
H61A 0.0830 0.3265 0.2652 0.068*
H61B 0.1737 0.3599 0.2537 0.068*
C62 0.0750 (3) 0.40724 (14) 0.2980 (2) 0.0630 (11)
H62A 0.0468 0.4188 0.2517 0.076*
H62B 0.0279 0.4022 0.3346 0.076*
C63 0.0916 (2) 0.50148 (13) 0.3325 (2) 0.0552 (9)
H63A 0.0459 0.4977 0.3706 0.066*
H63B 0.0619 0.5128 0.2868 0.066*
C64 0.1597 (2) 0.54490 (13) 0.35509 (19) 0.0535 (9)
H64A 0.2082 0.5455 0.3191 0.064*
H64B 0.1311 0.5817 0.3548 0.064*
N1 0.40830 (13) 0.36760 (8) 0.83187 (10) 0.0214 (4)
N4 0.54411 (13) 0.32126 (8) 0.74713 (10) 0.0212 (4)
N3 0.42573 (13) 0.23860 (8) 0.69859 (10) 0.0210 (4)
N2 0.29024 (14) 0.28625 (8) 0.78308 (11) 0.0227 (4)
N5 0.45202 (15) 0.25569 (8) 0.84641 (11) 0.0264 (5)
N6 0.38396 (15) 0.35109 (8) 0.68460 (11) 0.0274 (5)
N7 0.27608 (18) 0.28639 (10) 0.46648 (14) 0.0430 (6)
N8 0.19817 (17) 0.53412 (9) 0.42903 (14) 0.0410 (6)
O5 0.12856 (15) 0.46853 (9) 0.55713 (11) 0.0465 (5)
O6 0.18960 (15) 0.35528 (9) 0.57740 (11) 0.0495 (6)
O7 0.13645 (15) 0.44939 (8) 0.32216 (12) 0.0486 (6)
O8 0.15602 (14) 0.33395 (8) 0.35576 (10) 0.0404 (5)
O3 0.38214 (14) 0.48576 (9) 0.42561 (12) 0.0486 (5)
O4 0.41566 (14) 0.36779 (9) 0.42072 (13) 0.0508 (6)
O1 0.4232 (2) 0.17042 (12) 0.9080 (2) 0.1138 (14)
O2 0.3746 (2) 0.42972 (10) 0.60550 (16) 0.0767 (8)
K1 0.24151 (4) 0.41042 (2) 0.45285 (3) 0.03328 (15)
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Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
Co1 0.02012 (17) 0.01555 (15) 0.02083 (17) 0.00058 (13) 0.00273 (13) −0.00084 (12)
C1 0.0275 (13) 0.0187 (11) 0.0244 (12) 0.0016 (10) −0.0011 (10) −0.0010 (9)
C2 0.0311 (14) 0.0226 (12) 0.0291 (14) −0.0005 (11) −0.0003 (11) −0.0057 (10)
C3 0.0352 (15) 0.0224 (12) 0.0306 (14) 0.0055 (11) 0.0049 (12) −0.0070 (10)
C4 0.0251 (13) 0.0195 (11) 0.0245 (12) 0.0025 (10) 0.0058 (10) 0.0001 (9)
C5 0.0271 (13) 0.0242 (12) 0.0246 (13) 0.0035 (11) 0.0068 (11) −0.0013 (10)
C6 0.0243 (13) 0.0225 (12) 0.0263 (13) 0.0027 (10) 0.0040 (10) 0.0009 (10)
C7 0.0232 (13) 0.0336 (14) 0.0330 (14) 0.0010 (11) 0.0036 (11) −0.0041 (11)
C8 0.0266 (14) 0.0299 (13) 0.0315 (14) −0.0054 (11) 0.0051 (11) −0.0041 (11)
C9 0.0239 (13) 0.0240 (12) 0.0235 (13) −0.0045 (10) 0.0029 (10) −0.0005 (10)
C10 0.0262 (13) 0.0203 (11) 0.0259 (13) −0.0021 (10) −0.0006 (11) 0.0011 (10)
C11 0.0267 (13) 0.0175 (11) 0.0230 (12) −0.0014 (10) 0.0008 (10) 0.0016 (9)
C12 0.0316 (14) 0.0186 (11) 0.0331 (14) −0.0030 (11) −0.0005 (12) −0.0054 (10)
C13 0.0305 (14) 0.0237 (12) 0.0269 (13) 0.0018 (11) 0.0045 (11) −0.0067 (10)
C14 0.0255 (13) 0.0200 (11) 0.0215 (12) 0.0023 (10) 0.0048 (10) −0.0003 (9)
C15 0.0251 (13) 0.0228 (12) 0.0225 (12) 0.0024 (10) 0.0035 (10) 0.0010 (9)
C16 0.0248 (13) 0.0195 (11) 0.0227 (12) 0.0004 (10) 0.0039 (10) 0.0021 (9)
C17 0.0233 (13) 0.0278 (12) 0.0280 (13) 0.0000 (11) 0.0072 (11) 0.0005 (10)
C18 0.0229 (13) 0.0268 (12) 0.0294 (13) −0.0036 (11) −0.0001 (11) 0.0000 (10)
C19 0.0240 (12) 0.0200 (11) 0.0237 (12) −0.0006 (10) 0.0004 (10) −0.0005 (9)
C20 0.0266 (13) 0.0210 (11) 0.0237 (12) −0.0005 (10) −0.0009 (10) 0.0021 (9)
C21 0.0242 (13) 0.0276 (13) 0.0324 (14) 0.0043 (11) −0.0001 (11) −0.0081 (11)
C22 0.0320 (16) 0.0477 (17) 0.0394 (16) 0.0060 (14) 0.0075 (13) −0.0080 (13)
C23 0.0315 (17) 0.074 (2) 0.055 (2) 0.0108 (17) 0.0154 (15) −0.0185 (18)
C24 0.0386 (19) 0.058 (2) 0.077 (2) 0.0253 (17) −0.0063 (18) −0.0314 (19)
C25 0.0456 (19) 0.0334 (15) 0.065 (2) 0.0136 (14) −0.0168 (17) −0.0156 (15)
C26 0.0335 (15) 0.0286 (13) 0.0418 (16) 0.0025 (12) −0.0046 (13) −0.0070 (11)
C27 0.0230 (13) 0.0183 (11) 0.0335 (14) −0.0004 (10) 0.0058 (11) −0.0010 (10)
C28 0.0334 (15) 0.0284 (13) 0.0340 (14) −0.0059 (12) 0.0037 (12) −0.0012 (11)
C29 0.0374 (16) 0.0299 (14) 0.0408 (16) −0.0061 (12) 0.0104 (13) 0.0043 (12)
C30 0.0309 (15) 0.0254 (13) 0.0554 (18) −0.0088 (12) 0.0091 (14) −0.0043 (12)
C31 0.0465 (18) 0.0325 (14) 0.0432 (17) −0.0109 (14) −0.0078 (14) −0.0055 (13)
C32 0.0424 (17) 0.0282 (13) 0.0354 (15) −0.0066 (13) −0.0007 (13) 0.0012 (11)
C33 0.0253 (13) 0.0293 (13) 0.0215 (12) −0.0036 (11) 0.0039 (11) −0.0048 (10)
C34 0.0359 (16) 0.0342 (14) 0.0296 (14) 0.0027 (12) 0.0092 (12) −0.0026 (11)
C35 0.0348 (16) 0.0427 (16) 0.0475 (18) 0.0013 (14) 0.0121 (14) −0.0158 (14)
C36 0.0332 (16) 0.0577 (19) 0.0355 (16) −0.0083 (15) 0.0159 (13) −0.0176 (14)
C37 0.0442 (18) 0.0562 (19) 0.0247 (14) −0.0169 (16) 0.0079 (13) −0.0007 (13)
C38 0.0302 (14) 0.0354 (14) 0.0262 (13) −0.0076 (12) 0.0027 (11) −0.0005 (11)
C39 0.0243 (13) 0.0303 (13) 0.0305 (14) −0.0012 (11) 0.0026 (11) −0.0106 (11)
C40 0.0481 (18) 0.0414 (16) 0.0435 (17) 0.0026 (15) −0.0126 (15) −0.0097 (13)
C41 0.047 (2) 0.070 (2) 0.055 (2) 0.0054 (19) −0.0209 (17) −0.0286 (18)
C42 0.0329 (17) 0.089 (3) 0.063 (2) −0.0231 (19) 0.0139 (17) −0.048 (2)
C43 0.092 (3) 0.069 (3) 0.066 (3) −0.054 (2) 0.007 (2) −0.011 (2)
C44 0.082 (3) 0.0515 (19) 0.0464 (19) −0.0357 (19) −0.0145 (18) 0.0040 (15)
C45 0.049 (2) 0.0412 (17) 0.057 (2) 0.0164 (15) 0.0276 (16) 0.0204 (16)
C46 0.0340 (16) 0.0243 (13) 0.0424 (16) −0.0012 (12) 0.0089 (13) 0.0045 (12)
C47 0.053 (2) 0.0377 (17) 0.073 (2) 0.0085 (16) −0.0169 (18) −0.0033 (16)
C48 0.0392 (18) 0.056 (2) 0.074 (2) 0.0100 (16) −0.0148 (17) 0.0026 (17)
C49 0.0287 (17) 0.070 (2) 0.083 (3) −0.0081 (17) 0.0014 (17) 0.002 (2)
C50 0.043 (2) 0.064 (2) 0.076 (3) −0.0132 (18) 0.0169 (19) 0.0054 (19)
C51 0.052 (2) 0.0425 (17) 0.058 (2) −0.0203 (16) −0.0025 (17) 0.0153 (15)
C52 0.062 (2) 0.0315 (15) 0.061 (2) −0.0159 (16) −0.0053 (18) 0.0033 (14)
C53 0.061 (2) 0.0330 (16) 0.079 (3) 0.0044 (16) 0.006 (2) −0.0078 (16)
C54 0.059 (2) 0.061 (2) 0.058 (2) −0.0080 (18) 0.0128 (18) −0.0287 (18)
C55 0.062 (2) 0.107 (3) 0.0325 (18) 0.033 (2) 0.0034 (17) 0.0015 (19)
C56 0.060 (2) 0.099 (3) 0.055 (2) 0.017 (2) 0.0177 (19) 0.043 (2)
C57 0.084 (3) 0.065 (2) 0.059 (2) −0.013 (2) −0.002 (2) 0.0353 (19)
C58 0.074 (3) 0.0403 (17) 0.061 (2) 0.0016 (18) −0.019 (2) 0.0234 (16)
C59 0.058 (2) 0.0271 (14) 0.079 (2) −0.0070 (15) −0.0261 (19) 0.0040 (15)
C60 0.051 (2) 0.0359 (16) 0.061 (2) 0.0028 (15) −0.0174 (16) −0.0191 (15)
C61 0.077 (3) 0.0516 (19) 0.0422 (19) −0.0125 (18) −0.0268 (17) 0.0014 (15)
C62 0.068 (2) 0.0461 (19) 0.075 (2) −0.0117 (18) −0.043 (2) 0.0085 (17)
C63 0.054 (2) 0.0421 (17) 0.069 (2) 0.0038 (16) −0.0225 (17) 0.0076 (16)
C64 0.062 (2) 0.0330 (16) 0.065 (2) −0.0026 (16) −0.0159 (18) 0.0132 (15)
N1 0.0227 (10) 0.0195 (9) 0.0219 (10) 0.0020 (8) 0.0022 (8) −0.0003 (8)
N4 0.0232 (11) 0.0192 (9) 0.0214 (10) 0.0016 (8) 0.0026 (8) −0.0006 (8)
N3 0.0222 (11) 0.0189 (9) 0.0218 (10) 0.0000 (8) 0.0032 (9) 0.0008 (8)
N2 0.0239 (11) 0.0192 (9) 0.0250 (11) −0.0001 (8) 0.0031 (9) −0.0010 (8)
N5 0.0302 (12) 0.0249 (11) 0.0243 (11) 0.0026 (9) 0.0048 (9) 0.0009 (9)
N6 0.0302 (12) 0.0243 (11) 0.0275 (11) −0.0001 (9) −0.0003 (9) 0.0002 (9)
N7 0.0441 (15) 0.0316 (12) 0.0532 (16) −0.0029 (11) −0.0176 (12) 0.0067 (11)
N8 0.0438 (15) 0.0264 (11) 0.0527 (15) −0.0045 (11) −0.0012 (12) 0.0003 (10)
O5 0.0513 (13) 0.0543 (13) 0.0338 (11) 0.0044 (11) −0.0017 (10) −0.0026 (9)
O6 0.0465 (13) 0.0566 (13) 0.0453 (12) 0.0041 (11) 0.0040 (10) 0.0214 (10)
O7 0.0519 (13) 0.0363 (11) 0.0574 (13) −0.0054 (10) −0.0212 (11) 0.0077 (10)
O8 0.0535 (13) 0.0325 (10) 0.0350 (11) −0.0011 (9) −0.0174 (9) −0.0040 (8)
O3 0.0372 (12) 0.0516 (13) 0.0571 (13) −0.0105 (10) 0.0062 (10) 0.0151 (10)
O4 0.0354 (12) 0.0520 (13) 0.0649 (14) −0.0023 (10) −0.0073 (10) 0.0074 (11)
O1 0.115 (3) 0.0686 (19) 0.158 (3) 0.0402 (19) 0.081 (2) 0.078 (2)
O2 0.085 (2) 0.0508 (14) 0.095 (2) −0.0036 (14) 0.0150 (16) 0.0461 (14)
K1 0.0364 (3) 0.0289 (3) 0.0346 (3) −0.0047 (3) 0.0003 (3) 0.0018 (2)
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Geometric parameters (Å, º)

Co1—N6 1.905 (2) C41—C42 1.359 (5)
Co1—N5 1.919 (2) C41—H41 0.9300
Co1—N1 1.9454 (19) C42—C43 1.356 (6)
Co1—N4 1.947 (2) C42—H42 0.9300
Co1—N2 1.952 (2) C43—C44 1.396 (5)
Co1—N3 1.9567 (19) C43—H43 0.9300
C1—N1 1.375 (3) C44—H44 0.9300
C1—C20 1.386 (3) C45—N5 1.155 (3)
C1—C2 1.439 (3) C45—O1 1.193 (4)
C2—C3 1.339 (4) C46—N6 1.151 (3)
C2—H2 0.9300 C46—O2 1.202 (3)
C3—C4 1.433 (3) C47—N7 1.450 (4)
C3—H3 0.9300 C47—C48 1.512 (5)
C4—N1 1.363 (3) C47—H47A 0.9700
C4—C5 1.394 (3) C47—H47B 0.9700
C5—C6 1.394 (3) C48—O4 1.417 (4)
C5—C21 1.485 (3) C48—H48A 0.9700
C6—N2 1.364 (3) C48—H48B 0.9700
C6—C7 1.429 (4) C49—O4 1.420 (4)
C7—C8 1.342 (4) C49—C50 1.484 (5)
C7—H7 0.9300 C49—H49A 0.9700
C8—C9 1.435 (4) C49—H49B 0.9700
C8—H8 0.9300 C50—O3 1.408 (4)
C9—N2 1.370 (3) C50—H50A 0.9700
C9—C10 1.387 (3) C50—H50B 0.9700
C10—C11 1.377 (4) C51—O3 1.417 (4)
C10—C27 1.493 (3) C51—C52 1.498 (5)
C11—N3 1.373 (3) C51—H51A 0.9700
C11—C12 1.440 (3) C51—H51B 0.9700
C12—C13 1.341 (4) C52—N8 1.463 (4)
C12—H12 0.9300 C52—H52A 0.9700
C13—C14 1.441 (3) C52—H52B 0.9700
C13—H13 0.9300 C53—N8 1.466 (4)
C14—N3 1.369 (3) C53—C54 1.481 (5)
C14—C15 1.384 (3) C53—H53A 0.9700
C15—C16 1.392 (3) C53—H53B 0.9700
C15—C33 1.483 (3) C54—O5 1.423 (4)
C16—N4 1.365 (3) C54—H54A 0.9700
C16—C17 1.435 (3) C54—H54B 0.9700
C17—C18 1.344 (3) C55—O5 1.423 (4)
C17—H17 0.9300 C55—C56 1.482 (6)
C18—C19 1.432 (4) C55—H55A 0.9700
C18—H18 0.9300 C55—H55B 0.9700
C19—N4 1.366 (3) C56—O6 1.419 (4)
C19—C20 1.384 (3) C56—H56A 0.9700
C20—C39 1.498 (3) C56—H56B 0.9700
C21—C22 1.385 (4) C57—O6 1.402 (4)
C21—C26 1.389 (4) C57—C58 1.491 (5)
C22—C23 1.382 (4) C57—H57A 0.9700
C22—H22 0.9300 C57—H57B 0.9700
C23—C24 1.378 (5) C58—N7 1.460 (4)
C23—H23 0.9300 C58—H58A 0.9700
C24—C25 1.376 (5) C58—H58B 0.9700
C24—H24 0.9300 C59—N7 1.464 (4)
C25—C26 1.380 (4) C59—C60 1.487 (5)
C25—H25 0.9300 C59—H59A 0.9700
C26—H26 0.9300 C59—H59B 0.9700
C27—C32 1.382 (4) C60—O8 1.410 (3)
C27—C28 1.387 (4) C60—H60A 0.9700
C28—C29 1.393 (4) C60—H60B 0.9700
C28—H28 0.9300 C61—O8 1.409 (3)
C29—C30 1.373 (4) C61—C62 1.463 (5)
C29—H29 0.9300 C61—H61A 0.9700
C30—C31 1.381 (4) C61—H61B 0.9700
C30—H30 0.9300 C62—O7 1.417 (4)
C31—C32 1.377 (4) C62—H62A 0.9700
C31—H31 0.9300 C62—H62B 0.9700
C32—H32 0.9300 C63—O7 1.415 (4)
C33—C38 1.384 (4) C63—C64 1.495 (5)
C33—C34 1.384 (4) C63—H63A 0.9700
C34—C35 1.379 (4) C63—H63B 0.9700
C34—H34 0.9300 C64—N8 1.470 (4)
C35—C36 1.374 (4) C64—H64A 0.9700
C35—H35 0.9300 C64—H64B 0.9700
C36—C37 1.369 (4) N7—K1 2.996 (2)
C36—H36 0.9300 N8—K1 3.034 (2)
C37—C38 1.390 (4) O5—K1 2.874 (2)
C37—H37 0.9300 O6—K1 2.715 (2)
C38—H38 0.9300 O7—K1 2.964 (2)
C39—C44 1.365 (4) O8—K1 2.8161 (18)
C39—C40 1.377 (4) O3—K1 2.786 (2)
C40—C41 1.389 (4) O4—K1 2.827 (2)
C40—H40 0.9300 O2—K1 3.407 (3)
N6—Co1—N5 179.60 (10) C49—C50—H50A 109.9
N6—Co1—N1 89.38 (8) O3—C50—H50B 109.9
N5—Co1—N1 90.51 (8) C49—C50—H50B 109.9
N6—Co1—N4 89.37 (9) H50A—C50—H50B 108.3
N5—Co1—N4 90.25 (8) O3—C51—C52 108.6 (3)
N1—Co1—N4 90.23 (8) O3—C51—H51A 110.0
N6—Co1—N2 90.23 (9) C52—C51—H51A 110.0
N5—Co1—N2 90.15 (9) O3—C51—H51B 110.0
N1—Co1—N2 89.48 (8) C52—C51—H51B 110.0
N4—Co1—N2 179.51 (8) H51A—C51—H51B 108.4
N6—Co1—N3 90.82 (8) N8—C52—C51 114.4 (3)
N5—Co1—N3 89.29 (8) N8—C52—H52A 108.7
N1—Co1—N3 179.48 (9) C51—C52—H52A 108.7
N4—Co1—N3 90.25 (8) N8—C52—H52B 108.7
N2—Co1—N3 90.04 (8) C51—C52—H52B 108.7
N1—C1—C20 125.3 (2) H52A—C52—H52B 107.6
N1—C1—C2 109.2 (2) N8—C53—C54 113.2 (3)
C20—C1—C2 125.0 (2) N8—C53—H53A 108.9
C3—C2—C1 107.0 (2) C54—C53—H53A 108.9
C3—C2—H2 126.5 N8—C53—H53B 108.9
C1—C2—H2 126.5 C54—C53—H53B 108.9
C2—C3—C4 107.6 (2) H53A—C53—H53B 107.7
C2—C3—H3 126.2 O5—C54—C53 109.7 (3)
C4—C3—H3 126.2 O5—C54—H54A 109.7
N1—C4—C5 126.0 (2) C53—C54—H54A 109.7
N1—C4—C3 109.5 (2) O5—C54—H54B 109.7
C5—C4—C3 124.3 (2) C53—C54—H54B 109.7
C6—C5—C4 121.4 (2) H54A—C54—H54B 108.2
C6—C5—C21 120.0 (2) O5—C55—C56 108.9 (3)
C4—C5—C21 118.6 (2) O5—C55—H55A 109.9
N2—C6—C5 124.8 (2) C56—C55—H55A 109.9
N2—C6—C7 109.4 (2) O5—C55—H55B 109.9
C5—C6—C7 125.4 (2) C56—C55—H55B 109.9
C8—C7—C6 107.6 (2) H55A—C55—H55B 108.3
C8—C7—H7 126.2 O6—C56—C55 109.5 (3)
C6—C7—H7 126.2 O6—C56—H56A 109.8
C7—C8—C9 106.8 (2) C55—C56—H56A 109.8
C7—C8—H8 126.6 O6—C56—H56B 109.8
C9—C8—H8 126.6 C55—C56—H56B 109.8
N2—C9—C10 125.8 (2) H56A—C56—H56B 108.2
N2—C9—C8 109.4 (2) O6—C57—C58 109.9 (3)
C10—C9—C8 123.9 (2) O6—C57—H57A 109.7
C11—C10—C9 122.1 (2) C58—C57—H57A 109.7
C11—C10—C27 120.2 (2) O6—C57—H57B 109.7
C9—C10—C27 117.5 (2) C58—C57—H57B 109.7
N3—C11—C10 125.7 (2) H57A—C57—H57B 108.2
N3—C11—C12 108.9 (2) N7—C58—C57 114.5 (3)
C10—C11—C12 125.1 (2) N7—C58—H58A 108.6
C13—C12—C11 107.6 (2) C57—C58—H58A 108.6
C13—C12—H12 126.2 N7—C58—H58B 108.6
C11—C12—H12 126.2 C57—C58—H58B 108.6
C12—C13—C14 107.2 (2) H58A—C58—H58B 107.6
C12—C13—H13 126.4 N7—C59—C60 114.1 (3)
C14—C13—H13 126.4 N7—C59—H59A 108.7
N3—C14—C15 125.5 (2) C60—C59—H59A 108.7
N3—C14—C13 109.2 (2) N7—C59—H59B 108.7
C15—C14—C13 124.8 (2) C60—C59—H59B 108.7
C14—C15—C16 121.9 (2) H59A—C59—H59B 107.6
C14—C15—C33 120.3 (2) O8—C60—C59 109.2 (2)
C16—C15—C33 117.5 (2) O8—C60—H60A 109.9
N4—C16—C15 126.5 (2) C59—C60—H60A 109.9
N4—C16—C17 109.3 (2) O8—C60—H60B 109.9
C15—C16—C17 123.8 (2) C59—C60—H60B 109.9
C18—C17—C16 107.2 (2) H60A—C60—H60B 108.3
C18—C17—H17 126.4 O8—C61—C62 109.9 (3)
C16—C17—H17 126.4 O8—C61—H61A 109.7
C17—C18—C19 107.2 (2) C62—C61—H61A 109.7
C17—C18—H18 126.4 O8—C61—H61B 109.7
C19—C18—H18 126.4 C62—C61—H61B 109.7
N4—C19—C20 125.8 (2) H61A—C61—H61B 108.2
N4—C19—C18 109.4 (2) O7—C62—C61 109.7 (3)
C20—C19—C18 124.7 (2) O7—C62—H62A 109.7
C19—C20—C1 122.5 (2) C61—C62—H62A 109.7
C19—C20—C39 117.9 (2) O7—C62—H62B 109.7
C1—C20—C39 119.1 (2) C61—C62—H62B 109.7
C22—C21—C26 118.7 (3) H62A—C62—H62B 108.2
C22—C21—C5 123.1 (2) O7—C63—C64 108.8 (3)
C26—C21—C5 118.2 (2) O7—C63—H63A 109.9
C23—C22—C21 120.1 (3) C64—C63—H63A 109.9
C23—C22—H22 120.0 O7—C63—H63B 109.9
C21—C22—H22 120.0 C64—C63—H63B 109.9
C24—C23—C22 120.7 (3) H63A—C63—H63B 108.3
C24—C23—H23 119.7 N8—C64—C63 112.6 (3)
C22—C23—H23 119.7 N8—C64—H64A 109.1
C25—C24—C23 119.7 (3) C63—C64—H64A 109.1
C25—C24—H24 120.2 N8—C64—H64B 109.1
C23—C24—H24 120.2 C63—C64—H64B 109.1
C24—C25—C26 119.8 (3) H64A—C64—H64B 107.8
C24—C25—H25 120.1 C4—N1—C1 106.55 (19)
C26—C25—H25 120.1 C4—N1—Co1 126.81 (16)
C25—C26—C21 121.1 (3) C1—N1—Co1 126.64 (16)
C25—C26—H26 119.5 C16—N4—C19 106.8 (2)
C21—C26—H26 119.5 C16—N4—Co1 126.43 (16)
C32—C27—C28 118.7 (2) C19—N4—Co1 126.74 (16)
C32—C27—C10 122.4 (2) C14—N3—C11 106.93 (19)
C28—C27—C10 118.9 (2) C14—N3—Co1 126.82 (16)
C27—C28—C29 120.3 (2) C11—N3—Co1 126.24 (16)
C27—C28—H28 119.9 C6—N2—C9 106.6 (2)
C29—C28—H28 119.9 C6—N2—Co1 127.08 (16)
C30—C29—C28 120.3 (3) C9—N2—Co1 126.24 (17)
C30—C29—H29 119.8 C45—N5—Co1 144.6 (2)
C28—C29—H29 119.8 C46—N6—Co1 159.8 (2)
C29—C30—C31 119.4 (2) C47—N7—C58 109.6 (3)
C29—C30—H30 120.3 C47—N7—C59 110.2 (3)
C31—C30—H30 120.3 C58—N7—C59 110.6 (3)
C32—C31—C30 120.4 (3) C47—N7—K1 110.08 (18)
C32—C31—H31 119.8 C58—N7—K1 106.72 (19)
C30—C31—H31 119.8 C59—N7—K1 109.55 (17)
C31—C32—C27 120.9 (3) C52—N8—C53 109.9 (2)
C31—C32—H32 119.6 C52—N8—C64 110.2 (2)
C27—C32—H32 119.6 C53—N8—C64 109.6 (3)
C38—C33—C34 118.4 (2) C52—N8—K1 105.81 (18)
C38—C33—C15 119.5 (2) C53—N8—K1 109.09 (17)
C34—C33—C15 122.1 (2) C64—N8—K1 112.16 (17)
C35—C34—C33 121.0 (3) C54—O5—C55 110.8 (3)
C35—C34—H34 119.5 C54—O5—K1 110.26 (18)
C33—C34—H34 119.5 C55—O5—K1 107.03 (19)
C36—C35—C34 120.1 (3) C57—O6—C56 113.6 (3)
C36—C35—H35 120.0 C57—O6—K1 122.9 (2)
C34—C35—H35 120.0 C56—O6—K1 116.86 (18)
C37—C36—C35 119.8 (3) C63—O7—C62 110.9 (3)
C37—C36—H36 120.1 C63—O7—K1 114.28 (18)
C35—C36—H36 120.1 C62—O7—K1 110.89 (17)
C36—C37—C38 120.2 (3) C61—O8—C60 111.0 (2)
C36—C37—H37 119.9 C61—O8—K1 118.53 (17)
C38—C37—H37 119.9 C60—O8—K1 119.91 (16)
C33—C38—C37 120.5 (3) C50—O3—C51 112.2 (2)
C33—C38—H38 119.8 C50—O3—K1 114.90 (19)
C37—C38—H38 119.8 C51—O3—K1 118.75 (18)
C44—C39—C40 118.6 (3) C48—O4—C49 111.3 (2)
C44—C39—C20 120.3 (2) C48—O4—K1 113.93 (19)
C40—C39—C20 121.1 (2) C49—O4—K1 111.12 (19)
C39—C40—C41 120.1 (3) C46—O2—K1 116.0 (2)
C39—C40—H40 119.9 O6—K1—O3 132.03 (7)
C41—C40—H40 119.9 O6—K1—O8 94.41 (7)
C42—C41—C40 120.9 (3) O3—K1—O8 129.47 (7)
C42—C41—H41 119.6 O6—K1—O4 105.01 (7)
C40—C41—H41 119.6 O3—K1—O4 60.87 (7)
C43—C42—C41 119.4 (3) O8—K1—O4 92.71 (6)
C43—C42—H42 120.3 O6—K1—O5 61.40 (7)
C41—C42—H42 120.3 O3—K1—O5 104.12 (7)
C42—C43—C44 120.3 (4) O8—K1—O5 117.15 (7)
C42—C43—H43 119.8 O4—K1—O5 146.94 (6)
C44—C43—H43 119.8 O6—K1—O7 131.30 (7)
C39—C44—C43 120.7 (3) O3—K1—O7 92.70 (6)
C39—C44—H44 119.6 O8—K1—O7 58.33 (5)
C43—C44—H44 119.6 O4—K1—O7 114.92 (7)
N5—C45—O1 178.7 (5) O5—K1—O7 93.90 (6)
N6—C46—O2 177.0 (3) O6—K1—N7 60.51 (7)
N7—C47—C48 114.1 (3) O3—K1—N7 121.17 (7)
N7—C47—H47A 108.7 O8—K1—N7 59.61 (6)
C48—C47—H47A 108.7 O4—K1—N7 60.71 (7)
N7—C47—H47B 108.7 O5—K1—N7 121.10 (7)
C48—C47—H47B 108.7 O7—K1—N7 117.38 (6)
H47A—C47—H47B 107.6 O6—K1—N8 121.53 (7)
O4—C48—C47 109.4 (3) O3—K1—N8 60.75 (7)
O4—C48—H48A 109.8 O8—K1—N8 116.20 (6)
C47—C48—H48A 109.8 O4—K1—N8 120.57 (7)
O4—C48—H48B 109.8 O5—K1—N8 60.39 (7)
C47—C48—H48B 109.8 O7—K1—N8 58.42 (6)
H48A—C48—H48B 108.2 N7—K1—N8 175.79 (7)
O4—C49—C50 109.7 (3) O6—K1—O2 63.88 (6)
O4—C49—H49A 109.7 O3—K1—O2 68.21 (6)
C50—C49—H49A 109.7 O8—K1—O2 147.62 (6)
O4—C49—H49B 109.7 O4—K1—O2 72.07 (7)
C50—C49—H49B 109.7 O5—K1—O2 74.97 (7)
H49A—C49—H49B 108.2 O7—K1—O2 154.01 (6)
O3—C50—C49 109.1 (3) N7—K1—O2 88.18 (6)
O3—C50—H50A 109.9 N8—K1—O2 96.02 (6)
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Hydrogen-bond geometry (Å, º)

Cg2 and Cg4 are the centroids of the N2/C6–C9 and N4/C16–C19 rings, respectively.

D—H···A D—H H···A D···A D—H···A
C50—H50A···O2i 0.97 2.59 3.555 (4) 171
C57—H57B···Cg2 0.97 2.83 3.783 (4) 168
C60—H60B···Cg4ii 0.97 2.60 3.437 (3) 145
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Symmetry codes: (i) −x+1, −y+1, −z+1; (ii) x−3/2, −y−1/2, z−3/2.

Footnotes

Supplementary data and figures for this paper are available from the IUCr electronic archives (Reference: HB6905).

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, New_Global_Publ_Block. DOI: 10.1107/S1600536812038317/hb6905sup1.cif

e-68-m1262-sup1.cif (40KB, cif)

Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536812038317/hb6905Isup2.hkl

e-68-m1262-Isup2.hkl (641.3KB, 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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