Supporting information
Crystallographic Information File (CIF) https://doi.org/10.1107/S1600536805028588/hg6222sup1.cif | |
Structure factor file (CIF format) https://doi.org/10.1107/S1600536805028588/hg6222Isup2.hkl |
CCDC reference: 287590
Cu(ClO4)2·6H2O (2.0 g, 5.40 mmol) and thiourea (2.25 g, 29.6 mmol) were mixed in water (50 ml) and heated slightly over a water bath to give complete dissolution. Slow evaporation of the solvent yielded a white crystalline powder which was recrystallized in triply distilled water to yield white single crystals of the title complex. Caution: Although no problems were encountered in this work, all perchlorate compounds are potentially explosive and should be prepared in small amounts and handled with care.
All H atoms were placed in geometrically calculated positions, with N—H = 0.86 Å [Please check added text], and included in the refinement using the riding-model approximation, with Uiso(H) = 1.2Ueq(N).
Data collection: CAD-4 EXPRESS (Enraf–Nonius, 1994); cell refinement: CAD-4 EXPRESS; data reduction: XCAD4 (Harms & Wocadlo, 1995); program(s) used to solve structure: SHELXTL/PC (Bruker, 2000); program(s) used to refine structure: SHELXTL/PC; molecular graphics: SHELXTL/PC and PLATON (Spek, 2003); software used to prepare material for publication: SHELXL97 (Sheldrick, 1997).
[Cu6(CH4N2S)14](ClO4)6 | F(000) = 4112 |
Mr = 2043.65 | Dx = 1.859 Mg m−3 Dm = 1.845 Mg m−3 Dm measured by flotation using a mixture of CCl4 and CHBr3 |
Monoclinic, Cc | Mo Kα radiation, λ = 0.71073 Å |
Hall symbol: C -2yc | Cell parameters from 25 reflections |
a = 17.229 (2) Å | θ = 11.2–13.6° |
b = 15.363 (3) Å | µ = 2.42 mm−1 |
c = 27.639 (5) Å | T = 293 K |
β = 93.30 (15)° | Block, white |
V = 7304 (2) Å3 | 0.24 × 0.2 × 0.18 mm |
Z = 4 |
Nonius MACH3 diffractometer | 5203 reflections with I > 2σ(I) |
Radiation source: fine-focus sealed tube | Rint = 0.046 |
Graphite monochromator | θmax = 25.0°, θmin = 2.3° |
ω/2θ scans | h = 0→20 |
Absorption correction: ψ scan (North et al., 1968) | k = −1→18 |
Tmin = 0.568, Tmax = 0.647 | l = −32→32 |
7120 measured reflections | 3 standard reflections every 60 min |
6610 independent reflections | intensity decay: none |
Refinement on F2 | Secondary atom site location: difference Fourier map |
Least-squares matrix: full | Hydrogen site location: inferred from neighbouring sites |
R[F2 > 2σ(F2)] = 0.039 | H-atom parameters constrained |
wR(F2) = 0.110 | w = 1/[σ2(Fo2) + (0.0685P)2 + 13.3767P] where P = (Fo2 + 2Fc2)/3 |
S = 1.03 | (Δ/σ)max = 0.001 |
6610 reflections | Δρmax = 1.22 e Å−3 |
829 parameters | Δρmin = −0.86 e Å−3 |
4 restraints | Absolute structure: Flack (1983), with how many Friedel pairs |
Primary atom site location: structure-invariant direct methods | Absolute structure parameter: 0.015 (17) |
[Cu6(CH4N2S)14](ClO4)6 | V = 7304 (2) Å3 |
Mr = 2043.65 | Z = 4 |
Monoclinic, Cc | Mo Kα radiation |
a = 17.229 (2) Å | µ = 2.42 mm−1 |
b = 15.363 (3) Å | T = 293 K |
c = 27.639 (5) Å | 0.24 × 0.2 × 0.18 mm |
β = 93.30 (15)° |
Nonius MACH3 diffractometer | 5203 reflections with I > 2σ(I) |
Absorption correction: ψ scan (North et al., 1968) | Rint = 0.046 |
Tmin = 0.568, Tmax = 0.647 | 3 standard reflections every 60 min |
7120 measured reflections | intensity decay: none |
6610 independent reflections |
R[F2 > 2σ(F2)] = 0.039 | H-atom parameters constrained |
wR(F2) = 0.110 | w = 1/[σ2(Fo2) + (0.0685P)2 + 13.3767P] where P = (Fo2 + 2Fc2)/3 |
S = 1.03 | Δρmax = 1.22 e Å−3 |
6610 reflections | Δρmin = −0.86 e Å−3 |
829 parameters | Absolute structure: Flack (1983), with how many Friedel pairs |
4 restraints | Absolute structure parameter: 0.015 (17) |
Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes. |
Refinement. Refinement of F2 against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F2, conventional R-factors R are based on F, with F set to zero for negative F2. The threshold expression of F2 > σ(F2) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F2 are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger. |
x | y | z | Uiso*/Ueq | ||
Cu1 | 0.39499 (6) | 0.35940 (7) | 0.79039 (4) | 0.0360 (3) | |
Cu2 | 0.52925 (6) | 0.35676 (7) | 0.73748 (4) | 0.0357 (3) | |
Cu3 | 0.52624 (6) | 0.61945 (7) | 0.73507 (4) | 0.0360 (3) | |
Cu4 | 0.39009 (7) | 0.62087 (7) | 0.78359 (4) | 0.0389 (3) | |
Cu5 | 0.37508 (8) | 0.48447 (8) | 0.64555 (5) | 0.0428 (3) | |
Cu6 | 0.55072 (9) | 0.49271 (7) | 0.87489 (5) | 0.0417 (3) | |
S1 | 0.32822 (16) | 0.23351 (16) | 0.80336 (9) | 0.0403 (6) | |
S2 | 0.59680 (16) | 0.23248 (16) | 0.72392 (9) | 0.0404 (6) | |
S3 | 0.59435 (16) | 0.74028 (16) | 0.71645 (9) | 0.0419 (6) | |
S4 | 0.32208 (16) | 0.74303 (16) | 0.80090 (9) | 0.0429 (6) | |
S5 | 0.4611 (2) | 0.4820 (2) | 0.58274 (12) | 0.0607 (8) | |
S6 | 0.6811 (2) | 0.49340 (16) | 0.89607 (11) | 0.0471 (8) | |
S7 | 0.4520 (2) | 0.50453 (18) | 0.92747 (11) | 0.0584 (9) | |
S8 | 0.24230 (18) | 0.48744 (17) | 0.62833 (11) | 0.0434 (7) | |
S9 | 0.40330 (14) | 0.36978 (14) | 0.70220 (7) | 0.0294 (5) | |
S10 | 0.52121 (14) | 0.36953 (14) | 0.82502 (8) | 0.0306 (5) | |
S11 | 0.51676 (14) | 0.60994 (15) | 0.82114 (8) | 0.0309 (5) | |
S12 | 0.40063 (14) | 0.60656 (14) | 0.69741 (8) | 0.0314 (5) | |
S13 | 0.58555 (16) | 0.48758 (13) | 0.71764 (9) | 0.0309 (6) | |
S14 | 0.33294 (15) | 0.48930 (13) | 0.80586 (9) | 0.0298 (5) | |
C1 | 0.3105 (7) | 0.2397 (7) | 0.8645 (4) | 0.050 (3) | |
C2 | 0.6265 (6) | 0.2413 (7) | 0.6663 (3) | 0.040 (2) | |
C3 | 0.5994 (6) | 0.7381 (7) | 0.6557 (3) | 0.038 (2) | |
C4 | 0.3179 (6) | 0.7419 (6) | 0.8636 (4) | 0.045 (3) | |
C5 | 0.4642 (8) | 0.3760 (9) | 0.5644 (3) | 0.066 (4) | |
C6 | 0.6997 (7) | 0.5152 (6) | 0.9560 (4) | 0.047 (3) | |
C7 | 0.4475 (6) | 0.4109 (7) | 0.9592 (3) | 0.046 (2) | |
C8 | 0.2179 (6) | 0.4741 (6) | 0.5674 (4) | 0.046 (3) | |
C9 | 0.3652 (6) | 0.2720 (6) | 0.6805 (3) | 0.036 (2) | |
C10 | 0.5574 (5) | 0.2723 (6) | 0.8506 (3) | 0.034 (2) | |
C11 | 0.5509 (6) | 0.7074 (7) | 0.8472 (4) | 0.043 (2) | |
C12 | 0.3762 (6) | 0.7018 (6) | 0.6657 (4) | 0.039 (2) | |
C13 | 0.6737 (7) | 0.4901 (6) | 0.7482 (4) | 0.035 (2) | |
C14 | 0.2425 (6) | 0.4851 (6) | 0.7739 (4) | 0.034 (2) | |
N1 | 0.3162 (8) | 0.1707 (8) | 0.8919 (4) | 0.081 (4) | |
H1A | 0.3096 | 0.1748 | 0.9224 | 0.097* | |
H1B | 0.3265 | 0.1210 | 0.8795 | 0.097* | |
N2 | 0.2948 (7) | 0.3138 (6) | 0.8849 (4) | 0.072 (3) | |
H2A | 0.2885 | 0.3160 | 0.9155 | 0.087* | |
H2B | 0.2907 | 0.3604 | 0.8677 | 0.087* | |
N3 | 0.6342 (9) | 0.1702 (7) | 0.6418 (4) | 0.103 (5) | |
H3A | 0.6530 | 0.1720 | 0.6137 | 0.124* | |
H3B | 0.6207 | 0.1212 | 0.6538 | 0.124* | |
N4 | 0.6470 (8) | 0.3130 (6) | 0.6480 (4) | 0.079 (4) | |
H4A | 0.6656 | 0.3139 | 0.6198 | 0.095* | |
H4B | 0.6422 | 0.3607 | 0.6638 | 0.095* | |
N5 | 0.5925 (8) | 0.6674 (7) | 0.6276 (4) | 0.082 (4) | |
H5A | 0.5953 | 0.6720 | 0.5967 | 0.099* | |
H5B | 0.5852 | 0.6172 | 0.6403 | 0.099* | |
N6 | 0.6106 (7) | 0.8121 (6) | 0.6321 (4) | 0.066 (3) | |
H6A | 0.6128 | 0.8119 | 0.6011 | 0.079* | |
H6B | 0.6155 | 0.8602 | 0.6479 | 0.079* | |
N7 | 0.3156 (6) | 0.6701 (5) | 0.8888 (3) | 0.059 (3) | |
H7A | 0.3122 | 0.6723 | 0.9197 | 0.071* | |
H7B | 0.3175 | 0.6205 | 0.8744 | 0.071* | |
N8 | 0.3148 (6) | 0.8182 (6) | 0.8875 (4) | 0.055 (2) | |
H8A | 0.3115 | 0.8187 | 0.9184 | 0.066* | |
H8B | 0.3162 | 0.8665 | 0.8718 | 0.066* | |
N9 | 0.4613 (9) | 0.3538 (7) | 0.5162 (4) | 0.097 (4) | |
H9A | 0.4623 | 0.2999 | 0.5079 | 0.117* | |
H9B | 0.4585 | 0.3937 | 0.4944 | 0.117* | |
N10 | 0.4683 (9) | 0.3094 (8) | 0.5924 (5) | 0.117 (5) | |
H10A | 0.4690 | 0.2579 | 0.5803 | 0.140* | |
H10B | 0.4704 | 0.3163 | 0.6234 | 0.140* | |
N11 | 0.7710 (6) | 0.5199 (6) | 0.9738 (4) | 0.058 (3) | |
H11A | 0.7804 | 0.5335 | 1.0037 | 0.069* | |
H11B | 0.8087 | 0.5094 | 0.9556 | 0.069* | |
N12 | 0.6412 (7) | 0.5320 (7) | 0.9853 (3) | 0.069 (3) | |
H12A | 0.6515 | 0.5455 | 1.0151 | 0.083* | |
H12B | 0.5937 | 0.5291 | 0.9740 | 0.083* | |
N13 | 0.5075 (6) | 0.3591 (6) | 0.9661 (4) | 0.078 (3) | |
H13A | 0.5034 | 0.3119 | 0.9826 | 0.094* | |
H13B | 0.5511 | 0.3722 | 0.9543 | 0.094* | |
N14 | 0.3828 (6) | 0.3880 (7) | 0.9779 (4) | 0.073 (3) | |
H14A | 0.3806 | 0.3404 | 0.9942 | 0.087* | |
H14B | 0.3423 | 0.4205 | 0.9741 | 0.087* | |
N15 | 0.1442 (6) | 0.4725 (6) | 0.5519 (3) | 0.059 (3) | |
H15A | 0.1318 | 0.4653 | 0.5215 | 0.071* | |
H15B | 0.1084 | 0.4786 | 0.5721 | 0.071* | |
N16 | 0.2725 (6) | 0.4645 (6) | 0.5357 (3) | 0.055 (2) | |
H16A | 0.2596 | 0.4573 | 0.5055 | 0.066* | |
H16B | 0.3208 | 0.4654 | 0.5455 | 0.066* | |
N17 | 0.3997 (6) | 0.1978 (6) | 0.6907 (3) | 0.049 (2) | |
H17A | 0.3799 | 0.1500 | 0.6795 | 0.059* | |
H17B | 0.4422 | 0.1968 | 0.7086 | 0.059* | |
N18 | 0.2994 (5) | 0.2737 (6) | 0.6527 (3) | 0.051 (2) | |
H18A | 0.2795 | 0.2259 | 0.6415 | 0.061* | |
H18B | 0.2768 | 0.3225 | 0.6461 | 0.061* | |
N19 | 0.6184 (6) | 0.2740 (6) | 0.8781 (3) | 0.056 (2) | |
H19A | 0.6386 | 0.2263 | 0.8891 | 0.067* | |
H19B | 0.6399 | 0.3230 | 0.8858 | 0.067* | |
N20 | 0.5232 (6) | 0.1979 (5) | 0.8382 (4) | 0.054 (3) | |
H20A | 0.5426 | 0.1495 | 0.8488 | 0.065* | |
H20B | 0.4816 | 0.1979 | 0.8194 | 0.065* | |
N21 | 0.6091 (7) | 0.7048 (7) | 0.8768 (4) | 0.093 (4) | |
H21A | 0.6297 | 0.7524 | 0.8878 | 0.112* | |
H21B | 0.6283 | 0.6555 | 0.8861 | 0.112* | |
N22 | 0.5213 (6) | 0.7819 (5) | 0.8329 (4) | 0.057 (3) | |
H22A | 0.5416 | 0.8297 | 0.8437 | 0.069* | |
H22B | 0.4815 | 0.7831 | 0.8126 | 0.069* | |
N23 | 0.3380 (6) | 0.6971 (6) | 0.6243 (4) | 0.074 (3) | |
H23A | 0.3245 | 0.7439 | 0.6089 | 0.089* | |
H23B | 0.3259 | 0.6471 | 0.6120 | 0.089* | |
N24 | 0.3948 (6) | 0.7779 (6) | 0.6847 (3) | 0.052 (3) | |
H24A | 0.3815 | 0.8249 | 0.6695 | 0.063* | |
H24B | 0.4203 | 0.7807 | 0.7123 | 0.063* | |
N25 | 0.7106 (5) | 0.4168 (6) | 0.7622 (3) | 0.051 (2) | |
H25A | 0.7565 | 0.4193 | 0.7761 | 0.061* | |
H25B | 0.6883 | 0.3672 | 0.7573 | 0.061* | |
N26 | 0.7120 (6) | 0.5648 (5) | 0.7570 (4) | 0.052 (2) | |
H26A | 0.7579 | 0.5639 | 0.7710 | 0.063* | |
H26B | 0.6908 | 0.6135 | 0.7487 | 0.063* | |
N27 | 0.2128 (5) | 0.4106 (6) | 0.7608 (3) | 0.051 (2) | |
H27A | 0.1692 | 0.4087 | 0.7440 | 0.061* | |
H27B | 0.2367 | 0.3632 | 0.7688 | 0.061* | |
N28 | 0.2070 (5) | 0.5581 (6) | 0.7620 (4) | 0.054 (2) | |
H28A | 0.1633 | 0.5570 | 0.7453 | 0.065* | |
H28B | 0.2273 | 0.6071 | 0.7710 | 0.065* | |
Cl1 | 0.92944 (17) | 0.48784 (15) | 0.78929 (12) | 0.0606 (7) | |
O11 | 0.9867 (7) | 0.4901 (9) | 0.8268 (5) | 0.122 (5) | |
O12 | 0.8552 (4) | 0.4874 (5) | 0.8120 (4) | 0.073 (2) | |
O13 | 0.9423 (7) | 0.4119 (5) | 0.7615 (4) | 0.100 (4) | |
O14 | 0.9389 (9) | 0.5618 (6) | 0.7622 (4) | 0.134 (6) | |
Cl2 | 0.7728 (2) | 0.50528 (16) | 0.61840 (11) | 0.0494 (7) | |
O21 | 0.7744 (7) | 0.5811 (7) | 0.6482 (4) | 0.093 (3) | |
O22 | 0.7970 (7) | 0.4356 (7) | 0.6472 (4) | 0.098 (3) | |
O23 | 0.8191 (8) | 0.5145 (7) | 0.5781 (4) | 0.099 (4) | |
O24 | 0.6947 (7) | 0.4921 (6) | 0.5999 (4) | 0.080 (3) | |
Cl3 | 0.45151 (17) | 0.84322 (18) | 0.53001 (12) | 0.0659 (7) | |
O31 | 0.5214 (6) | 0.7954 (8) | 0.5297 (4) | 0.115 (4) | |
O32 | 0.4295 (8) | 0.8502 (8) | 0.5789 (4) | 0.127 (5) | |
O33 | 0.3915 (6) | 0.8029 (8) | 0.5030 (6) | 0.143 (5) | |
O34 | 0.4612 (8) | 0.9315 (6) | 0.5129 (4) | 0.112 (4) | |
Cl4 | 0.69561 (16) | 0.23546 (15) | 0.51717 (9) | 0.0461 (6) | |
O41 | 0.7119 (7) | 0.3094 (5) | 0.5469 (3) | 0.085 (3) | |
O42 | 0.6195 (7) | 0.2111 (11) | 0.5244 (6) | 0.161 (6) | |
O43 | 0.7113 (6) | 0.2561 (7) | 0.4688 (3) | 0.090 (3) | |
O44 | 0.7436 (7) | 0.1674 (6) | 0.5342 (3) | 0.099 (3) | |
Cl5 | 0.72539 (16) | 0.73552 (16) | 0.50491 (10) | 0.0485 (6) | |
O51 | 0.7994 (6) | 0.7025 (11) | 0.4948 (4) | 0.138 (5) | |
O52 | 0.7252 (9) | 0.7596 (7) | 0.5529 (3) | 0.121 (5) | |
O53 | 0.6732 (7) | 0.6702 (7) | 0.4938 (6) | 0.133 (5) | |
O54 | 0.7065 (6) | 0.8078 (6) | 0.4742 (3) | 0.084 (3) | |
Cl6 | 0.14953 (18) | 0.49183 (16) | 0.90827 (10) | 0.0452 (7) | |
O61 | 0.2266 (5) | 0.4905 (5) | 0.9286 (4) | 0.062 (2) | |
O62 | 0.0980 (8) | 0.5030 (9) | 0.9435 (5) | 0.124 (6) | |
O63 | 0.1428 (6) | 0.5656 (6) | 0.8757 (4) | 0.087 (3) | |
O64 | 0.1345 (6) | 0.4134 (6) | 0.8824 (4) | 0.095 (4) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Cu1 | 0.0389 (7) | 0.0262 (6) | 0.0430 (7) | 0.0000 (5) | 0.0042 (5) | 0.0039 (5) |
Cu2 | 0.0415 (7) | 0.0255 (6) | 0.0405 (6) | 0.0006 (5) | 0.0037 (5) | −0.0007 (5) |
Cu3 | 0.0446 (7) | 0.0241 (6) | 0.0394 (6) | −0.0014 (5) | 0.0019 (5) | 0.0053 (5) |
Cu4 | 0.0454 (7) | 0.0269 (6) | 0.0447 (7) | −0.0002 (5) | 0.0053 (6) | −0.0021 (5) |
Cu5 | 0.0548 (9) | 0.0341 (6) | 0.0379 (7) | −0.0027 (6) | −0.0114 (6) | 0.0017 (5) |
Cu6 | 0.0560 (9) | 0.0320 (6) | 0.0355 (7) | −0.0006 (5) | −0.0108 (6) | 0.0036 (5) |
S1 | 0.0514 (15) | 0.0262 (12) | 0.0437 (13) | −0.0085 (11) | 0.0050 (12) | −0.0015 (10) |
S2 | 0.0542 (16) | 0.0254 (12) | 0.0423 (14) | 0.0098 (11) | 0.0084 (12) | 0.0028 (10) |
S3 | 0.0606 (17) | 0.0268 (12) | 0.0381 (13) | −0.0107 (12) | 0.0012 (12) | 0.0028 (10) |
S4 | 0.0567 (16) | 0.0251 (12) | 0.0466 (14) | 0.0107 (11) | −0.0002 (12) | 0.0004 (10) |
S5 | 0.066 (2) | 0.0590 (17) | 0.0572 (18) | −0.0151 (15) | 0.0060 (15) | 0.0162 (14) |
S6 | 0.0551 (19) | 0.0394 (15) | 0.0443 (16) | 0.0028 (11) | −0.0171 (15) | −0.0042 (10) |
S7 | 0.077 (2) | 0.0574 (17) | 0.0418 (15) | 0.0221 (14) | 0.0106 (15) | 0.0039 (12) |
S8 | 0.0480 (17) | 0.0403 (14) | 0.0403 (15) | 0.0009 (11) | −0.0125 (13) | −0.0030 (11) |
S9 | 0.0402 (14) | 0.0236 (11) | 0.0233 (11) | 0.0004 (10) | −0.0062 (10) | −0.0004 (8) |
S10 | 0.0418 (14) | 0.0219 (11) | 0.0272 (11) | 0.0021 (10) | −0.0054 (10) | 0.0000 (8) |
S11 | 0.0437 (14) | 0.0219 (11) | 0.0262 (11) | 0.0007 (10) | −0.0059 (10) | 0.0013 (8) |
S12 | 0.0461 (14) | 0.0202 (10) | 0.0267 (11) | −0.0006 (10) | −0.0095 (10) | 0.0021 (8) |
S13 | 0.0394 (15) | 0.0194 (11) | 0.0333 (13) | 0.0013 (10) | −0.0037 (11) | −0.0002 (9) |
S14 | 0.0334 (14) | 0.0216 (11) | 0.0340 (12) | 0.0021 (9) | −0.0016 (11) | 0.0011 (9) |
C1 | 0.054 (6) | 0.030 (5) | 0.068 (7) | −0.012 (5) | 0.023 (5) | 0.011 (5) |
C2 | 0.055 (6) | 0.041 (6) | 0.026 (5) | −0.005 (5) | 0.009 (4) | −0.012 (4) |
C3 | 0.032 (5) | 0.046 (6) | 0.037 (5) | −0.001 (4) | 0.000 (4) | 0.009 (4) |
C4 | 0.040 (5) | 0.030 (5) | 0.065 (7) | 0.010 (4) | 0.008 (5) | −0.003 (5) |
C5 | 0.098 (9) | 0.085 (9) | 0.018 (4) | 0.043 (7) | 0.010 (5) | 0.019 (5) |
C6 | 0.067 (7) | 0.022 (4) | 0.050 (6) | 0.004 (5) | −0.012 (6) | −0.001 (4) |
C7 | 0.048 (6) | 0.047 (6) | 0.042 (5) | −0.005 (5) | 0.001 (4) | 0.010 (4) |
C8 | 0.068 (7) | 0.012 (4) | 0.053 (6) | −0.007 (4) | −0.021 (6) | 0.001 (4) |
C9 | 0.058 (6) | 0.024 (5) | 0.027 (4) | −0.009 (4) | 0.016 (4) | −0.003 (4) |
C10 | 0.030 (5) | 0.032 (5) | 0.041 (5) | 0.004 (4) | −0.004 (4) | 0.005 (4) |
C11 | 0.046 (6) | 0.037 (5) | 0.045 (6) | −0.001 (5) | −0.008 (5) | 0.003 (4) |
C12 | 0.042 (5) | 0.027 (5) | 0.048 (6) | −0.004 (4) | −0.004 (4) | 0.014 (4) |
C13 | 0.035 (6) | 0.033 (5) | 0.038 (5) | 0.005 (4) | 0.008 (5) | −0.002 (4) |
C14 | 0.035 (6) | 0.037 (5) | 0.028 (5) | −0.001 (4) | −0.003 (4) | 0.000 (4) |
N1 | 0.112 (9) | 0.074 (7) | 0.055 (6) | 0.007 (6) | −0.005 (6) | 0.035 (5) |
N2 | 0.128 (10) | 0.042 (5) | 0.051 (5) | −0.006 (6) | 0.046 (6) | −0.002 (4) |
N3 | 0.194 (16) | 0.042 (6) | 0.080 (8) | 0.000 (8) | 0.061 (9) | −0.020 (5) |
N4 | 0.134 (11) | 0.046 (6) | 0.063 (7) | −0.017 (6) | 0.050 (7) | −0.014 (5) |
N5 | 0.138 (11) | 0.067 (7) | 0.042 (6) | −0.025 (7) | 0.013 (6) | −0.002 (5) |
N6 | 0.098 (8) | 0.042 (5) | 0.058 (6) | −0.027 (5) | 0.005 (6) | 0.019 (5) |
N7 | 0.105 (8) | 0.030 (5) | 0.044 (5) | 0.005 (5) | 0.027 (5) | 0.005 (4) |
N8 | 0.068 (6) | 0.041 (5) | 0.056 (5) | −0.004 (5) | 0.006 (5) | −0.005 (4) |
N9 | 0.158 (11) | 0.073 (7) | 0.061 (7) | 0.013 (8) | 0.008 (7) | 0.003 (6) |
N10 | 0.195 (15) | 0.065 (7) | 0.098 (10) | 0.007 (9) | 0.072 (10) | −0.002 (7) |
N11 | 0.063 (6) | 0.060 (6) | 0.047 (5) | 0.002 (5) | −0.032 (5) | 0.002 (4) |
N12 | 0.095 (8) | 0.067 (6) | 0.044 (5) | −0.005 (6) | −0.012 (5) | −0.018 (5) |
N13 | 0.062 (6) | 0.063 (6) | 0.112 (9) | 0.005 (5) | 0.020 (6) | 0.050 (6) |
N14 | 0.058 (6) | 0.071 (6) | 0.090 (7) | −0.005 (5) | 0.010 (5) | −0.008 (6) |
N15 | 0.057 (6) | 0.065 (6) | 0.050 (5) | −0.017 (5) | −0.039 (4) | 0.007 (5) |
N16 | 0.062 (6) | 0.076 (6) | 0.025 (4) | −0.010 (5) | −0.022 (4) | 0.005 (4) |
N17 | 0.066 (6) | 0.033 (5) | 0.046 (5) | −0.002 (4) | −0.023 (4) | −0.009 (4) |
N18 | 0.038 (5) | 0.038 (5) | 0.075 (6) | −0.004 (4) | −0.020 (4) | −0.014 (4) |
N19 | 0.070 (6) | 0.040 (5) | 0.055 (6) | 0.012 (5) | −0.020 (5) | 0.008 (4) |
N20 | 0.058 (6) | 0.021 (4) | 0.082 (7) | 0.004 (4) | −0.006 (5) | 0.013 (4) |
N21 | 0.121 (10) | 0.041 (5) | 0.107 (9) | 0.000 (6) | −0.077 (8) | −0.021 (6) |
N22 | 0.079 (7) | 0.015 (4) | 0.077 (7) | −0.002 (4) | −0.008 (5) | 0.000 (4) |
N23 | 0.115 (9) | 0.025 (4) | 0.076 (7) | −0.012 (5) | −0.052 (6) | 0.014 (4) |
N24 | 0.083 (7) | 0.032 (5) | 0.040 (5) | 0.001 (5) | −0.019 (5) | 0.007 (4) |
N25 | 0.053 (5) | 0.037 (5) | 0.060 (6) | 0.001 (4) | −0.019 (4) | 0.009 (4) |
N26 | 0.049 (5) | 0.024 (4) | 0.081 (7) | −0.007 (4) | −0.022 (5) | 0.001 (4) |
N27 | 0.048 (5) | 0.038 (5) | 0.065 (6) | −0.003 (4) | −0.011 (4) | 0.004 (4) |
N28 | 0.041 (5) | 0.044 (5) | 0.077 (7) | 0.007 (4) | −0.009 (5) | 0.004 (5) |
Cl1 | 0.0636 (17) | 0.0324 (12) | 0.0834 (19) | 0.0000 (11) | −0.0161 (14) | 0.0029 (12) |
O11 | 0.081 (7) | 0.181 (13) | 0.101 (8) | 0.003 (7) | −0.036 (7) | −0.020 (7) |
O12 | 0.033 (4) | 0.083 (6) | 0.102 (7) | −0.002 (4) | 0.002 (4) | −0.001 (5) |
O13 | 0.173 (12) | 0.048 (4) | 0.080 (6) | −0.016 (6) | 0.013 (7) | −0.014 (5) |
O14 | 0.254 (18) | 0.054 (5) | 0.099 (7) | 0.044 (8) | 0.060 (9) | 0.033 (6) |
Cl2 | 0.061 (2) | 0.0374 (13) | 0.0506 (16) | −0.0038 (11) | 0.0120 (15) | −0.0021 (10) |
O21 | 0.136 (10) | 0.068 (6) | 0.074 (6) | −0.017 (6) | −0.005 (6) | −0.020 (5) |
O22 | 0.126 (9) | 0.078 (7) | 0.088 (7) | 0.012 (6) | 0.001 (6) | 0.029 (6) |
O23 | 0.092 (8) | 0.135 (10) | 0.074 (7) | −0.011 (7) | 0.030 (7) | 0.020 (6) |
O24 | 0.085 (8) | 0.084 (7) | 0.069 (6) | −0.011 (5) | −0.015 (6) | −0.011 (5) |
Cl3 | 0.0578 (16) | 0.0562 (16) | 0.084 (2) | 0.0054 (13) | 0.0028 (15) | −0.0030 (14) |
O31 | 0.079 (6) | 0.141 (9) | 0.122 (9) | 0.048 (6) | −0.033 (6) | −0.071 (7) |
O32 | 0.195 (13) | 0.117 (9) | 0.076 (7) | 0.006 (8) | 0.068 (8) | 0.027 (6) |
O33 | 0.072 (7) | 0.114 (9) | 0.236 (16) | −0.003 (6) | −0.056 (9) | −0.031 (10) |
O34 | 0.177 (10) | 0.074 (6) | 0.083 (6) | −0.044 (7) | −0.002 (6) | 0.012 (5) |
Cl4 | 0.0538 (17) | 0.0455 (14) | 0.0393 (14) | 0.0087 (11) | 0.0058 (12) | −0.0034 (10) |
O41 | 0.157 (9) | 0.056 (5) | 0.045 (5) | −0.005 (5) | 0.036 (5) | −0.012 (4) |
O42 | 0.067 (7) | 0.192 (15) | 0.229 (17) | −0.039 (8) | 0.052 (9) | −0.056 (13) |
O43 | 0.119 (8) | 0.128 (8) | 0.024 (4) | 0.005 (7) | 0.001 (4) | 0.007 (4) |
O44 | 0.157 (10) | 0.060 (5) | 0.076 (6) | 0.026 (6) | −0.032 (6) | 0.004 (4) |
Cl5 | 0.0533 (16) | 0.0490 (15) | 0.0431 (14) | −0.0104 (12) | 0.0019 (12) | −0.0071 (11) |
O51 | 0.074 (7) | 0.246 (16) | 0.096 (8) | 0.056 (9) | 0.034 (6) | 0.045 (9) |
O52 | 0.246 (16) | 0.086 (7) | 0.031 (5) | 0.014 (8) | 0.004 (7) | 0.004 (4) |
O53 | 0.096 (8) | 0.073 (7) | 0.222 (15) | −0.024 (6) | −0.056 (9) | 0.003 (8) |
O54 | 0.137 (8) | 0.074 (5) | 0.037 (4) | −0.021 (5) | −0.023 (5) | 0.011 (4) |
Cl6 | 0.0512 (17) | 0.0467 (14) | 0.0367 (13) | 0.0042 (11) | −0.0067 (13) | −0.0054 (10) |
O61 | 0.050 (5) | 0.064 (6) | 0.068 (6) | 0.015 (4) | −0.018 (4) | −0.008 (4) |
O62 | 0.069 (7) | 0.229 (19) | 0.075 (8) | −0.009 (7) | 0.014 (7) | −0.047 (8) |
O63 | 0.087 (6) | 0.066 (6) | 0.104 (7) | 0.005 (5) | −0.032 (6) | 0.044 (5) |
O64 | 0.096 (7) | 0.046 (5) | 0.137 (9) | 0.009 (5) | −0.057 (6) | −0.033 (5) |
Cu1—S1 | 2.289 (3) | N4—H4A | 0.8600 |
Cu1—S14 | 2.315 (3) | N4—H4B | 0.8600 |
Cu1—S10 | 2.330 (4) | N5—H5A | 0.8600 |
Cu1—S9 | 2.455 (2) | N5—H5B | 0.8600 |
Cu1—Cu2 | 2.807 (4) | N6—H6A | 0.8600 |
Cu2—S2 | 2.278 (3) | N6—H6B | 0.8600 |
Cu2—S13 | 2.311 (3) | N7—H7A | 0.8600 |
Cu2—S9 | 2.336 (4) | N7—H7B | 0.8600 |
Cu2—S10 | 2.439 (3) | N8—H8A | 0.8600 |
Cu3—S3 | 2.271 (3) | N8—H8B | 0.8600 |
Cu3—S13 | 2.332 (3) | N9—H9A | 0.8600 |
Cu3—S12 | 2.355 (4) | N9—H9B | 0.8600 |
Cu3—S11 | 2.398 (3) | N10—H10A | 0.8600 |
Cu3—Cu4 | 2.768 (3) | N10—H10B | 0.8600 |
Cu4—S4 | 2.278 (3) | N11—H11A | 0.8600 |
Cu4—S14 | 2.346 (3) | N11—H11B | 0.8600 |
Cu4—S11 | 2.368 (4) | N12—H12A | 0.8600 |
Cu4—S12 | 2.409 (3) | N12—H12B | 0.8600 |
Cu5—S8 | 2.310 (4) | N13—H13A | 0.8600 |
Cu5—S5 | 2.347 (5) | N13—H13B | 0.8600 |
Cu5—S12 | 2.386 (3) | N14—H14A | 0.8600 |
Cu5—S9 | 2.388 (3) | N14—H14B | 0.8600 |
Cu6—S6 | 2.289 (4) | N15—H15A | 0.8600 |
Cu6—S7 | 2.307 (5) | N15—H15B | 0.8600 |
Cu6—S10 | 2.379 (3) | N16—H16A | 0.8600 |
Cu6—S11 | 2.386 (3) | N16—H16B | 0.8600 |
S1—C1 | 1.737 (12) | N17—H17A | 0.8600 |
S2—C2 | 1.707 (9) | N17—H17B | 0.8600 |
S3—C3 | 1.688 (10) | N18—H18A | 0.8600 |
S4—C4 | 1.739 (11) | N18—H18B | 0.8600 |
S5—C5 | 1.706 (13) | N19—H19A | 0.8600 |
S6—C6 | 1.703 (11) | N19—H19B | 0.8600 |
S7—C7 | 1.689 (10) | N20—H20A | 0.8600 |
S8—C8 | 1.724 (10) | N20—H20B | 0.8600 |
S9—C9 | 1.732 (9) | N21—H21A | 0.8600 |
S10—C10 | 1.752 (9) | N21—H21B | 0.8600 |
S11—C11 | 1.748 (11) | N22—H22A | 0.8600 |
S12—C12 | 1.745 (9) | N22—H22B | 0.8600 |
S13—C13 | 1.696 (12) | N23—H23A | 0.8600 |
S14—C14 | 1.747 (11) | N23—H23B | 0.8600 |
C1—N1 | 1.303 (14) | N24—H24A | 0.8600 |
C1—N2 | 1.306 (14) | N24—H24B | 0.8600 |
C2—N4 | 1.271 (13) | N25—H25A | 0.8600 |
C2—N3 | 1.295 (13) | N25—H25B | 0.8600 |
C3—N6 | 1.329 (13) | N26—H26A | 0.8600 |
C3—N5 | 1.338 (14) | N26—H26B | 0.8600 |
C4—N7 | 1.307 (13) | N27—H27A | 0.8600 |
C4—N8 | 1.348 (13) | N27—H27B | 0.8600 |
C5—N10 | 1.283 (15) | N28—H28A | 0.8600 |
C5—N9 | 1.373 (15) | N28—H28B | 0.8600 |
C6—N11 | 1.297 (15) | Cl1—O14 | 1.375 (9) |
C6—N12 | 1.353 (15) | Cl1—O11 | 1.389 (11) |
C7—N14 | 1.305 (13) | Cl1—O13 | 1.422 (9) |
C7—N13 | 1.310 (13) | Cl1—O12 | 1.457 (9) |
C8—N15 | 1.317 (13) | Cl2—O22 | 1.384 (10) |
C8—N16 | 1.331 (14) | Cl2—O23 | 1.415 (12) |
C9—N17 | 1.310 (13) | Cl2—O24 | 1.425 (12) |
C9—N18 | 1.332 (13) | Cl2—O21 | 1.426 (10) |
C10—N19 | 1.262 (13) | Cl3—O33 | 1.386 (11) |
C10—N20 | 1.321 (13) | Cl3—O31 | 1.411 (9) |
C11—N21 | 1.258 (14) | Cl3—O32 | 1.428 (10) |
C11—N22 | 1.305 (13) | Cl3—O34 | 1.450 (9) |
C12—N23 | 1.289 (13) | Cl4—O42 | 1.390 (11) |
C12—N24 | 1.313 (13) | Cl4—O44 | 1.397 (9) |
C13—N25 | 1.339 (13) | Cl4—O43 | 1.415 (9) |
C13—N26 | 1.339 (13) | Cl4—O41 | 1.421 (8) |
C14—N27 | 1.297 (13) | Cl5—O53 | 1.370 (10) |
C14—N28 | 1.310 (13) | Cl5—O52 | 1.376 (9) |
N1—H1A | 0.8600 | Cl5—O51 | 1.416 (10) |
N1—H1B | 0.8600 | Cl5—O54 | 1.423 (9) |
N2—H2A | 0.8600 | Cl6—O62 | 1.365 (14) |
N2—H2B | 0.8600 | Cl6—O61 | 1.412 (10) |
N3—H3A | 0.8600 | Cl6—O64 | 1.417 (9) |
N3—H3B | 0.8600 | Cl6—O63 | 1.448 (9) |
S1—Cu1—S14 | 117.24 (12) | N25—C13—N26 | 116.6 (11) |
S1—Cu1—S10 | 117.24 (10) | N25—C13—S13 | 121.4 (8) |
S14—Cu1—S10 | 107.25 (9) | N26—C13—S13 | 121.9 (8) |
S1—Cu1—S9 | 105.60 (12) | N27—C14—N28 | 120.9 (10) |
S14—Cu1—S9 | 100.44 (11) | N27—C14—S14 | 120.0 (8) |
S10—Cu1—S9 | 107.28 (16) | N28—C14—S14 | 119.1 (8) |
S1—Cu1—Cu2 | 120.39 (9) | C1—N1—H1A | 120.0 |
S14—Cu1—Cu2 | 120.78 (9) | C1—N1—H1B | 120.0 |
S10—Cu1—Cu2 | 55.77 (7) | H1A—N1—H1B | 120.0 |
S9—Cu1—Cu2 | 52.18 (12) | C1—N2—H2A | 120.0 |
S2—Cu2—S13 | 117.66 (12) | C1—N2—H2B | 120.0 |
S2—Cu2—S9 | 118.31 (10) | H2A—N2—H2B | 120.0 |
S13—Cu2—S9 | 102.65 (9) | C2—N3—H3A | 120.0 |
S2—Cu2—S10 | 106.82 (12) | C2—N3—H3B | 120.0 |
S13—Cu2—S10 | 102.36 (11) | H3A—N3—H3B | 120.0 |
S9—Cu2—S10 | 107.63 (16) | C2—N4—H4A | 120.0 |
S2—Cu2—Cu1 | 122.81 (9) | C2—N4—H4B | 120.0 |
S13—Cu2—Cu1 | 118.73 (9) | H4A—N4—H4B | 120.0 |
S9—Cu2—Cu1 | 56.13 (7) | C3—N5—H5A | 120.0 |
S10—Cu2—Cu1 | 52.16 (13) | C3—N5—H5B | 120.0 |
S3—Cu3—S13 | 115.16 (12) | H5A—N5—H5B | 120.0 |
S3—Cu3—S12 | 116.25 (10) | C3—N6—H6A | 120.0 |
S13—Cu3—S12 | 103.77 (10) | C3—N6—H6B | 120.0 |
S3—Cu3—S11 | 109.89 (12) | H6A—N6—H6B | 120.0 |
S13—Cu3—S11 | 101.99 (11) | C4—N7—H7A | 120.0 |
S12—Cu3—S11 | 108.65 (16) | C4—N7—H7B | 120.0 |
S3—Cu3—Cu4 | 124.52 (10) | H7A—N7—H7B | 120.0 |
S13—Cu3—Cu4 | 120.03 (9) | C4—N8—H8A | 120.0 |
S12—Cu3—Cu4 | 55.39 (7) | C4—N8—H8B | 120.0 |
S11—Cu3—Cu4 | 53.98 (13) | H8A—N8—H8B | 120.0 |
S4—Cu4—S14 | 115.22 (12) | C5—N9—H9A | 120.0 |
S4—Cu4—S11 | 116.02 (10) | C5—N9—H9B | 120.0 |
S14—Cu4—S11 | 102.36 (10) | H9A—N9—H9B | 120.0 |
S4—Cu4—S12 | 110.60 (12) | C5—N10—H10A | 120.0 |
S14—Cu4—S12 | 103.73 (11) | C5—N10—H10B | 120.0 |
S11—Cu4—S12 | 107.86 (16) | H10A—N10—H10B | 120.0 |
S4—Cu4—Cu3 | 124.66 (10) | C6—N11—H11A | 120.0 |
S14—Cu4—Cu3 | 120.03 (9) | C6—N11—H11B | 120.0 |
S11—Cu4—Cu3 | 55.00 (7) | H11A—N11—H11B | 120.0 |
S12—Cu4—Cu3 | 53.57 (13) | C6—N12—H12A | 120.0 |
S8—Cu5—S5 | 120.52 (15) | C6—N12—H12B | 120.0 |
S8—Cu5—S12 | 104.74 (14) | H12A—N12—H12B | 120.0 |
S5—Cu5—S12 | 110.78 (11) | C7—N13—H13A | 120.0 |
S8—Cu5—S9 | 108.14 (14) | C7—N13—H13B | 120.0 |
S5—Cu5—S9 | 111.07 (12) | H13A—N13—H13B | 120.0 |
S12—Cu5—S9 | 99.36 (10) | C7—N14—H14A | 120.0 |
S6—Cu6—S7 | 125.94 (15) | C7—N14—H14B | 120.0 |
S6—Cu6—S10 | 109.01 (13) | H14A—N14—H14B | 120.0 |
S7—Cu6—S10 | 106.67 (12) | C8—N15—H15A | 120.0 |
S6—Cu6—S11 | 110.95 (14) | C8—N15—H15B | 120.0 |
S7—Cu6—S11 | 99.77 (11) | H15A—N15—H15B | 120.0 |
S10—Cu6—S11 | 101.72 (11) | C8—N16—H16A | 120.0 |
C1—S1—Cu1 | 103.0 (4) | C8—N16—H16B | 120.0 |
C2—S2—Cu2 | 105.7 (4) | H16A—N16—H16B | 120.0 |
C3—S3—Cu3 | 105.5 (4) | C9—N17—H17A | 120.0 |
C4—S4—Cu4 | 104.6 (3) | C9—N17—H17B | 120.0 |
C5—S5—Cu5 | 105.5 (4) | H17A—N17—H17B | 120.0 |
C6—S6—Cu6 | 112.1 (5) | C9—N18—H18A | 120.0 |
C7—S7—Cu6 | 108.5 (4) | C9—N18—H18B | 120.0 |
C8—S8—Cu5 | 112.5 (4) | H18A—N18—H18B | 120.0 |
C9—S9—Cu2 | 113.2 (4) | C10—N19—H19A | 120.0 |
C9—S9—Cu5 | 110.7 (3) | C10—N19—H19B | 120.0 |
Cu2—S9—Cu5 | 119.08 (13) | H19A—N19—H19B | 120.0 |
C9—S9—Cu1 | 104.2 (3) | C10—N20—H20A | 120.0 |
Cu2—S9—Cu1 | 71.69 (14) | C10—N20—H20B | 120.0 |
Cu5—S9—Cu1 | 132.65 (11) | H20A—N20—H20B | 120.0 |
C10—S10—Cu1 | 114.2 (3) | C11—N21—H21A | 120.0 |
C10—S10—Cu6 | 112.7 (3) | C11—N21—H21B | 120.0 |
Cu1—S10—Cu6 | 117.02 (13) | H21A—N21—H21B | 120.0 |
C10—S10—Cu2 | 107.0 (3) | C11—N22—H22A | 120.0 |
Cu1—S10—Cu2 | 72.07 (15) | C11—N22—H22B | 120.0 |
Cu6—S10—Cu2 | 128.04 (11) | H22A—N22—H22B | 120.0 |
C11—S11—Cu4 | 113.5 (4) | C12—N23—H23A | 120.0 |
C11—S11—Cu6 | 109.0 (4) | C12—N23—H23B | 120.0 |
Cu4—S11—Cu6 | 120.88 (13) | H23A—N23—H23B | 120.0 |
C11—S11—Cu3 | 108.5 (4) | C12—N24—H24A | 120.0 |
Cu4—S11—Cu3 | 71.02 (14) | C12—N24—H24B | 120.0 |
Cu6—S11—Cu3 | 129.45 (11) | H24A—N24—H24B | 120.0 |
C12—S12—Cu3 | 109.9 (4) | C13—N25—H25A | 120.0 |
C12—S12—Cu5 | 109.0 (4) | C13—N25—H25B | 120.0 |
Cu3—S12—Cu5 | 117.68 (13) | H25A—N25—H25B | 120.0 |
C12—S12—Cu4 | 113.0 (4) | C13—N26—H26A | 120.0 |
Cu3—S12—Cu4 | 71.04 (14) | C13—N26—H26B | 120.0 |
Cu5—S12—Cu4 | 130.08 (11) | H26A—N26—H26B | 120.0 |
C13—S13—Cu2 | 106.1 (3) | C14—N27—H27A | 120.0 |
C13—S13—Cu3 | 105.6 (3) | C14—N27—H27B | 120.0 |
Cu2—S13—Cu3 | 120.77 (14) | H27A—N27—H27B | 120.0 |
C14—S14—Cu1 | 106.4 (3) | C14—N28—H28A | 120.0 |
C14—S14—Cu4 | 105.9 (3) | C14—N28—H28B | 120.0 |
Cu1—S14—Cu4 | 119.27 (13) | H28A—N28—H28B | 120.0 |
N1—C1—N2 | 117.9 (11) | O14—Cl1—O11 | 106.5 (9) |
N1—C1—S1 | 120.7 (10) | O14—Cl1—O13 | 110.9 (7) |
N2—C1—S1 | 121.3 (8) | O11—Cl1—O13 | 107.3 (8) |
N4—C2—N3 | 119.0 (10) | O14—Cl1—O12 | 111.9 (7) |
N4—C2—S2 | 123.0 (8) | O11—Cl1—O12 | 106.4 (7) |
N3—C2—S2 | 117.7 (9) | O13—Cl1—O12 | 113.4 (6) |
N6—C3—N5 | 114.9 (9) | O22—Cl2—O23 | 111.5 (8) |
N6—C3—S3 | 119.2 (9) | O22—Cl2—O24 | 110.1 (7) |
N5—C3—S3 | 125.9 (8) | O23—Cl2—O24 | 107.1 (8) |
N7—C4—N8 | 118.1 (10) | O22—Cl2—O21 | 107.7 (7) |
N7—C4—S4 | 122.9 (8) | O23—Cl2—O21 | 112.3 (7) |
N8—C4—S4 | 119.0 (8) | O24—Cl2—O21 | 108.0 (7) |
N10—C5—N9 | 112.6 (12) | O33—Cl3—O31 | 112.0 (7) |
N10—C5—S5 | 125.7 (9) | O33—Cl3—O32 | 108.2 (10) |
N9—C5—S5 | 121.7 (8) | O31—Cl3—O32 | 108.5 (8) |
N11—C6—N12 | 119.0 (10) | O33—Cl3—O34 | 109.8 (8) |
N11—C6—S6 | 120.0 (10) | O31—Cl3—O34 | 111.8 (9) |
N12—C6—S6 | 120.9 (9) | O32—Cl3—O34 | 106.3 (7) |
N14—C7—N13 | 117.6 (10) | O42—Cl4—O44 | 107.1 (9) |
N14—C7—S7 | 120.1 (9) | O42—Cl4—O43 | 115.5 (9) |
N13—C7—S7 | 122.3 (8) | O44—Cl4—O43 | 110.1 (7) |
N15—C8—N16 | 119.3 (9) | O42—Cl4—O41 | 106.8 (8) |
N15—C8—S8 | 119.8 (10) | O44—Cl4—O41 | 108.0 (6) |
N16—C8—S8 | 120.9 (8) | O43—Cl4—O41 | 109.0 (5) |
N17—C9—N18 | 120.1 (9) | O53—Cl5—O52 | 112.0 (9) |
N17—C9—S9 | 121.5 (8) | O53—Cl5—O51 | 106.3 (9) |
N18—C9—S9 | 118.4 (8) | O52—Cl5—O51 | 109.8 (8) |
N19—C10—N20 | 121.2 (9) | O53—Cl5—O54 | 108.3 (6) |
N19—C10—S10 | 119.3 (8) | O52—Cl5—O54 | 110.6 (5) |
N20—C10—S10 | 119.4 (7) | O51—Cl5—O54 | 109.8 (7) |
N21—C11—N22 | 120.5 (10) | O62—Cl6—O61 | 110.6 (7) |
N21—C11—S11 | 118.6 (9) | O62—Cl6—O64 | 111.0 (8) |
N22—C11—S11 | 120.6 (8) | O61—Cl6—O64 | 109.2 (5) |
N23—C12—N24 | 120.4 (9) | O62—Cl6—O63 | 108.2 (8) |
N23—C12—S12 | 119.7 (8) | O61—Cl6—O63 | 107.4 (6) |
N24—C12—S12 | 119.9 (8) | O64—Cl6—O63 | 110.3 (7) |
S1—Cu1—Cu2—S2 | −17.77 (12) | S7—Cu6—S11—C11 | 81.4 (4) |
S14—Cu1—Cu2—S2 | 176.98 (12) | S10—Cu6—S11—C11 | −169.2 (4) |
S10—Cu1—Cu2—S2 | 86.28 (11) | S6—Cu6—S11—Cu4 | 172.43 (11) |
S9—Cu1—Cu2—S2 | −104.29 (11) | S7—Cu6—S11—Cu4 | −52.85 (15) |
S1—Cu1—Cu2—S13 | 172.66 (12) | S10—Cu6—S11—Cu4 | 56.60 (18) |
S14—Cu1—Cu2—S13 | 7.41 (10) | S6—Cu6—S11—Cu3 | 82.4 (2) |
S10—Cu1—Cu2—S13 | −83.29 (10) | S7—Cu6—S11—Cu3 | −142.91 (17) |
S9—Cu1—Cu2—S13 | 86.14 (10) | S10—Cu6—S11—Cu3 | −33.46 (18) |
S1—Cu1—Cu2—S9 | 86.52 (11) | S3—Cu3—S11—C11 | 9.5 (4) |
S14—Cu1—Cu2—S9 | −78.74 (11) | S13—Cu3—S11—C11 | 132.1 (4) |
S10—Cu1—Cu2—S9 | −169.44 (7) | S12—Cu3—S11—C11 | −118.7 (4) |
S1—Cu1—Cu2—S10 | −104.04 (11) | Cu4—Cu3—S11—C11 | −109.3 (4) |
S14—Cu1—Cu2—S10 | 90.70 (11) | S3—Cu3—S11—Cu4 | 118.82 (11) |
S9—Cu1—Cu2—S10 | 169.44 (7) | S13—Cu3—S11—Cu4 | −118.57 (9) |
S3—Cu3—Cu4—S4 | 9.01 (13) | S12—Cu3—S11—Cu4 | −9.39 (6) |
S13—Cu3—Cu4—S4 | −177.50 (12) | S3—Cu3—S11—Cu6 | −126.36 (15) |
S12—Cu3—Cu4—S4 | −91.22 (12) | S13—Cu3—S11—Cu6 | −3.75 (17) |
S11—Cu3—Cu4—S4 | 99.61 (12) | S12—Cu3—S11—Cu6 | 105.42 (15) |
S3—Cu3—Cu4—S14 | −174.70 (12) | Cu4—Cu3—S11—Cu6 | 114.82 (16) |
S13—Cu3—Cu4—S14 | −1.21 (10) | S3—Cu3—S12—C12 | −7.0 (4) |
S12—Cu3—Cu4—S14 | 85.07 (11) | S13—Cu3—S12—C12 | −134.5 (4) |
S11—Cu3—Cu4—S14 | −84.10 (11) | S11—Cu3—S12—C12 | 117.6 (4) |
S3—Cu3—Cu4—S11 | −90.60 (11) | Cu4—Cu3—S12—C12 | 108.4 (4) |
S13—Cu3—Cu4—S11 | 82.89 (11) | S3—Cu3—S12—Cu5 | 118.64 (13) |
S12—Cu3—Cu4—S11 | 169.17 (7) | S13—Cu3—S12—Cu5 | −8.86 (14) |
S3—Cu3—Cu4—S12 | 100.23 (11) | S11—Cu3—S12—Cu5 | −116.82 (13) |
S13—Cu3—Cu4—S12 | −86.28 (10) | Cu4—Cu3—S12—Cu5 | −126.05 (13) |
S11—Cu3—Cu4—S12 | −169.17 (7) | S3—Cu3—S12—Cu4 | −115.30 (11) |
S14—Cu1—S1—C1 | −59.6 (4) | S13—Cu3—S12—Cu4 | 117.19 (9) |
S10—Cu1—S1—C1 | 70.2 (4) | S11—Cu3—S12—Cu4 | 9.23 (6) |
S9—Cu1—S1—C1 | −170.5 (4) | S8—Cu5—S12—C12 | −63.3 (4) |
Cu2—Cu1—S1—C1 | 134.6 (4) | S5—Cu5—S12—C12 | 68.1 (4) |
S13—Cu2—S2—C2 | −48.2 (4) | S9—Cu5—S12—C12 | −175.0 (4) |
S9—Cu2—S2—C2 | 76.1 (4) | S8—Cu5—S12—Cu3 | 170.67 (11) |
S10—Cu2—S2—C2 | −162.4 (4) | S5—Cu5—S12—Cu3 | −57.91 (15) |
Cu1—Cu2—S2—C2 | 142.2 (4) | S9—Cu5—S12—Cu3 | 58.98 (17) |
S13—Cu3—S3—C3 | 63.8 (4) | S8—Cu5—S12—Cu4 | 82.9 (2) |
S12—Cu3—S3—C3 | −57.8 (4) | S5—Cu5—S12—Cu4 | −145.73 (16) |
S11—Cu3—S3—C3 | 178.3 (4) | S9—Cu5—S12—Cu4 | −28.84 (18) |
Cu4—Cu3—S3—C3 | −122.4 (4) | S4—Cu4—S12—C12 | 14.3 (4) |
S14—Cu4—S4—C4 | 61.4 (4) | S14—Cu4—S12—C12 | 138.4 (4) |
S11—Cu4—S4—C4 | −58.2 (4) | S11—Cu4—S12—C12 | −113.5 (4) |
S12—Cu4—S4—C4 | 178.6 (4) | Cu3—Cu4—S12—C12 | −104.2 (4) |
Cu3—Cu4—S4—C4 | −122.2 (4) | S4—Cu4—S12—Cu3 | 118.54 (11) |
S8—Cu5—S5—C5 | −81.0 (4) | S14—Cu4—S12—Cu3 | −117.38 (9) |
S12—Cu5—S5—C5 | 156.4 (4) | S11—Cu4—S12—Cu3 | −9.31 (6) |
S9—Cu5—S5—C5 | 46.9 (4) | S4—Cu4—S12—Cu5 | −130.80 (15) |
S7—Cu6—S6—C6 | −6.4 (4) | S14—Cu4—S12—Cu5 | −6.72 (17) |
S10—Cu6—S6—C6 | −135.0 (4) | S11—Cu4—S12—Cu5 | 101.36 (15) |
S11—Cu6—S6—C6 | 113.8 (4) | Cu3—Cu4—S12—Cu5 | 110.67 (15) |
S6—Cu6—S7—C7 | −71.7 (4) | S2—Cu2—S13—C13 | −55.7 (4) |
S10—Cu6—S7—C7 | 57.9 (4) | S9—Cu2—S13—C13 | 172.5 (4) |
S11—Cu6—S7—C7 | 163.4 (4) | S10—Cu2—S13—C13 | 61.0 (4) |
S5—Cu5—S8—C8 | 7.4 (4) | Cu1—Cu2—S13—C13 | 114.4 (4) |
S12—Cu5—S8—C8 | 133.0 (3) | S2—Cu2—S13—Cu3 | −175.49 (11) |
S9—Cu5—S8—C8 | −121.8 (3) | S9—Cu2—S13—Cu3 | 52.73 (14) |
S2—Cu2—S9—C9 | 14.3 (3) | S10—Cu2—S13—Cu3 | −58.80 (17) |
S13—Cu2—S9—C9 | 145.7 (3) | Cu1—Cu2—S13—Cu3 | −5.38 (15) |
S10—Cu2—S9—C9 | −106.7 (3) | S3—Cu3—S13—C13 | 56.6 (4) |
Cu1—Cu2—S9—C9 | −98.0 (3) | S12—Cu3—S13—C13 | −175.2 (4) |
S2—Cu2—S9—Cu5 | −118.45 (13) | S11—Cu3—S13—C13 | −62.3 (4) |
S13—Cu2—S9—Cu5 | 12.95 (13) | Cu4—Cu3—S13—C13 | −117.4 (4) |
S10—Cu2—S9—Cu5 | 120.50 (12) | S3—Cu3—S13—Cu2 | 176.73 (11) |
Cu1—Cu2—S9—Cu5 | 129.23 (13) | S12—Cu3—S13—Cu2 | −55.09 (14) |
S2—Cu2—S9—Cu1 | 112.32 (10) | S11—Cu3—S13—Cu2 | 57.78 (17) |
S13—Cu2—S9—Cu1 | −116.28 (9) | Cu4—Cu3—S13—Cu2 | 2.65 (16) |
S10—Cu2—S9—Cu1 | −8.74 (6) | S1—Cu1—S14—C14 | −52.2 (4) |
S8—Cu5—S9—C9 | 54.6 (4) | S10—Cu1—S14—C14 | 173.5 (4) |
S5—Cu5—S9—C9 | −79.8 (4) | S9—Cu1—S14—C14 | 61.6 (4) |
S12—Cu5—S9—C9 | 163.6 (4) | Cu2—Cu1—S14—C14 | 113.5 (4) |
S8—Cu5—S9—Cu2 | −171.56 (11) | S1—Cu1—S14—Cu4 | −171.74 (11) |
S5—Cu5—S9—Cu2 | 54.10 (16) | S10—Cu1—S14—Cu4 | 53.92 (15) |
S12—Cu5—S9—Cu2 | −62.57 (17) | S9—Cu1—S14—Cu4 | −58.02 (17) |
S8—Cu5—S9—Cu1 | −80.22 (19) | Cu2—Cu1—S14—Cu4 | −6.04 (16) |
S5—Cu5—S9—Cu1 | 145.43 (16) | S4—Cu4—S14—C14 | 60.0 (4) |
S12—Cu5—S9—Cu1 | 28.77 (18) | S11—Cu4—S14—C14 | −173.2 (4) |
S1—Cu1—S9—C9 | −6.4 (4) | S12—Cu4—S14—C14 | −61.0 (4) |
S14—Cu1—S9—C9 | −128.8 (4) | Cu3—Cu4—S14—C14 | −116.6 (4) |
S10—Cu1—S9—C9 | 119.3 (4) | S4—Cu4—S14—Cu1 | 179.81 (11) |
Cu2—Cu1—S9—C9 | 110.2 (4) | S11—Cu4—S14—Cu1 | −53.35 (14) |
S1—Cu1—S9—Cu2 | −116.63 (10) | S12—Cu4—S14—Cu1 | 58.79 (18) |
S14—Cu1—S9—Cu2 | 121.04 (9) | Cu3—Cu4—S14—Cu1 | 3.18 (16) |
S10—Cu1—S9—Cu2 | 9.13 (6) | Cu1—S1—C1—N1 | −140.0 (10) |
S1—Cu1—S9—Cu5 | 130.34 (15) | Cu1—S1—C1—N2 | 36.8 (12) |
S14—Cu1—S9—Cu5 | 8.02 (16) | Cu2—S2—C2—N4 | 36.0 (12) |
S10—Cu1—S9—Cu5 | −103.89 (15) | Cu2—S2—C2—N3 | −149.7 (11) |
Cu2—Cu1—S9—Cu5 | −113.02 (16) | Cu3—S3—C3—N6 | 156.4 (8) |
S1—Cu1—S10—C10 | 8.7 (4) | Cu3—S3—C3—N5 | −22.9 (11) |
S14—Cu1—S10—C10 | 143.1 (4) | Cu4—S4—C4—N7 | −31.9 (11) |
S9—Cu1—S10—C10 | −109.8 (4) | Cu4—S4—C4—N8 | 149.9 (8) |
Cu2—Cu1—S10—C10 | −101.0 (4) | Cu5—S5—C5—N10 | −42.8 (15) |
S1—Cu1—S10—Cu6 | −126.05 (12) | Cu5—S5—C5—N9 | 136.2 (12) |
S14—Cu1—S10—Cu6 | 8.29 (14) | Cu6—S6—C6—N11 | −178.5 (7) |
S9—Cu1—S10—Cu6 | 115.47 (12) | Cu6—S6—C6—N12 | −1.7 (10) |
Cu2—Cu1—S10—Cu6 | 124.19 (13) | Cu6—S7—C7—N14 | −155.7 (8) |
S1—Cu1—S10—Cu2 | 109.76 (10) | Cu6—S7—C7—N13 | 24.5 (11) |
S14—Cu1—S10—Cu2 | −115.90 (10) | Cu5—S8—C8—N15 | 178.6 (7) |
S9—Cu1—S10—Cu2 | −8.72 (6) | Cu5—S8—C8—N16 | −0.7 (9) |
S6—Cu6—S10—C10 | 51.3 (4) | Cu2—S9—C9—N17 | 10.7 (9) |
S7—Cu6—S10—C10 | −87.4 (4) | Cu5—S9—C9—N17 | 147.4 (7) |
S11—Cu6—S10—C10 | 168.5 (4) | Cu1—S9—C9—N17 | −65.2 (9) |
S6—Cu6—S10—Cu1 | −173.28 (12) | Cu2—S9—C9—N18 | −169.2 (7) |
S7—Cu6—S10—Cu1 | 48.03 (14) | Cu5—S9—C9—N18 | −32.5 (8) |
S11—Cu6—S10—Cu1 | −56.04 (18) | Cu1—S9—C9—N18 | 114.9 (7) |
S6—Cu6—S10—Cu2 | −85.56 (19) | Cu1—S10—C10—N19 | −166.7 (7) |
S7—Cu6—S10—Cu2 | 135.75 (16) | Cu6—S10—C10—N19 | −29.9 (9) |
S11—Cu6—S10—Cu2 | 31.68 (18) | Cu2—S10—C10—N19 | 115.8 (8) |
S2—Cu2—S10—C10 | −8.2 (4) | Cu1—S10—C10—N20 | 17.9 (10) |
S13—Cu2—S10—C10 | −132.5 (3) | Cu6—S10—C10—N20 | 154.6 (8) |
S9—Cu2—S10—C10 | 119.8 (3) | Cu2—S10—C10—N20 | −59.7 (9) |
Cu1—Cu2—S10—C10 | 110.6 (3) | Cu4—S11—C11—N21 | 164.7 (10) |
S2—Cu2—S10—Cu1 | −118.82 (10) | Cu6—S11—C11—N21 | 26.8 (12) |
S13—Cu2—S10—Cu1 | 116.93 (9) | Cu3—S11—C11—N21 | −118.6 (11) |
S9—Cu2—S10—Cu1 | 9.19 (6) | Cu4—S11—C11—N22 | −21.8 (11) |
S2—Cu2—S10—Cu6 | 130.50 (14) | Cu6—S11—C11—N22 | −159.7 (9) |
S13—Cu2—S10—Cu6 | 6.25 (16) | Cu3—S11—C11—N22 | 55.0 (11) |
S9—Cu2—S10—Cu6 | −101.49 (15) | Cu3—S12—C12—N23 | 141.3 (9) |
Cu1—Cu2—S10—Cu6 | −110.68 (15) | Cu5—S12—C12—N23 | 10.9 (11) |
S4—Cu4—S11—C11 | −13.1 (4) | Cu4—S12—C12—N23 | −141.5 (9) |
S14—Cu4—S11—C11 | −139.4 (4) | Cu3—S12—C12—N24 | −40.6 (10) |
S12—Cu4—S11—C11 | 111.6 (4) | Cu5—S12—C12—N24 | −171.0 (8) |
Cu3—Cu4—S11—C11 | 102.4 (4) | Cu4—S12—C12—N24 | 36.6 (10) |
S4—Cu4—S11—Cu6 | 119.23 (14) | Cu2—S13—C13—N25 | 24.4 (10) |
S14—Cu4—S11—Cu6 | −7.09 (14) | Cu3—S13—C13—N25 | 153.7 (9) |
S12—Cu4—S11—Cu6 | −116.11 (13) | Cu2—S13—C13—N26 | −159.6 (9) |
Cu3—Cu4—S11—Cu6 | −125.25 (14) | Cu3—S13—C13—N26 | −30.3 (11) |
S4—Cu4—S11—Cu3 | −115.52 (11) | Cu1—S14—C14—N27 | 21.1 (10) |
S14—Cu4—S11—Cu3 | 118.16 (9) | Cu4—S14—C14—N27 | 149.0 (8) |
S12—Cu4—S11—Cu3 | 9.14 (6) | Cu1—S14—C14—N28 | −156.3 (8) |
S6—Cu6—S11—C11 | −53.4 (4) | Cu4—S14—C14—N28 | −28.4 (10) |
D—H···A | D—H | H···A | D···A | D—H···A |
N1—H1A···O43i | 0.86 | 2.43 | 3.080 (17) | 133 |
N1—H1A···O33ii | 0.86 | 2.59 | 3.289 (19) | 139 |
N2—H2A···O43i | 0.86 | 2.32 | 2.997 (14) | 136 |
N2—H2A···N14 | 0.86 | 2.55 | 3.125 (15) | 125 |
N2—H2B···S14 | 0.86 | 2.74 | 3.556 (10) | 158 |
N3—H3A···O42 | 0.86 | 2.57 | 3.30 (2) | 143 |
N4—H4A···O41 | 0.86 | 2.21 | 3.068 (13) | 177 |
N4—H4B···S13 | 0.86 | 2.67 | 3.500 (10) | 163 |
N5—H5B···S13 | 0.86 | 2.92 | 3.725 (11) | 157 |
N6—H6A···O31 | 0.86 | 2.47 | 3.153 (15) | 137 |
N6—H6A···O52 | 0.86 | 2.55 | 3.140 (17) | 127 |
N6—H6B···S8iii | 0.86 | 3.00 | 3.528 (10) | 121 |
N7—H7A···O54iv | 0.86 | 2.45 | 3.121 (14) | 135 |
N7—H7B···S14 | 0.86 | 2.79 | 3.624 (9) | 164 |
N8—H8A···O51iv | 0.86 | 2.16 | 3.009 (15) | 171 |
N8—H8B···O12v | 0.86 | 2.60 | 3.430 (13) | 162 |
N9—H9B···S7vi | 0.86 | 2.42 | 3.276 (12) | 175 |
N10—H10B···S9 | 0.86 | 2.66 | 3.422 (12) | 149 |
N11—H11A···O23ii | 0.86 | 2.25 | 3.000 (16) | 146 |
N12—H12A···O24ii | 0.86 | 2.49 | 3.270 (16) | 152 |
N12—H12A···O41ii | 0.86 | 2.59 | 3.177 (14) | 126 |
N12—H12B···S7 | 0.86 | 2.72 | 3.571 (12) | 171 |
N13—H13A···O31ii | 0.86 | 2.11 | 2.954 (13) | 166 |
N13—H13B···O53ii | 0.86 | 2.40 | 2.947 (15) | 122 |
N14—H14A···O33ii | 0.86 | 2.22 | 3.016 (16) | 153 |
N14—H14B···O61 | 0.86 | 2.53 | 3.341 (14) | 157 |
N15—H15A···O62vi | 0.86 | 2.26 | 3.078 (16) | 160 |
N16—H16A···O61vi | 0.86 | 2.31 | 3.098 (12) | 152 |
N16—H16A···O54vii | 0.86 | 2.60 | 3.124 (12) | 120 |
N16—H16B···S5 | 0.86 | 2.58 | 3.439 (10) | 173 |
N17—H17A···O21vii | 0.86 | 2.23 | 2.994 (14) | 147 |
N17—H17B···S2 | 0.86 | 2.73 | 3.507 (10) | 151 |
N18—H18A···O21vii | 0.86 | 2.23 | 2.991 (14) | 147 |
N18—H18B···S8 | 0.86 | 2.64 | 3.483 (10) | 166 |
N19—H19A···O63viii | 0.86 | 2.50 | 3.230 (14) | 144 |
N19—H19B···S6 | 0.86 | 2.72 | 3.565 (10) | 167 |
N20—H20A···O63viii | 0.86 | 2.25 | 3.033 (13) | 152 |
N20—H20B···S1 | 0.86 | 2.71 | 3.485 (10) | 150 |
N21—H21A···O64iii | 0.86 | 2.48 | 3.236 (13) | 147 |
N21—H21A···O43ii | 0.86 | 2.58 | 3.067 (13) | 117 |
N21—H21B···S6 | 0.86 | 2.66 | 3.507 (11) | 168 |
N22—H22A···O64iii | 0.86 | 2.27 | 3.075 (13) | 155 |
N22—H22B···O13v | 0.86 | 2.50 | 3.070 (15) | 124 |
N23—H23A···O32 | 0.86 | 2.61 | 3.134 (15) | 121 |
N23—H23B···S8 | 0.86 | 2.89 | 3.623 (9) | 144 |
N24—H24A···O22v | 0.86 | 2.30 | 3.096 (14) | 154 |
N24—H24B···O13v | 0.86 | 2.45 | 3.035 (13) | 126 |
N25—H25A···O12 | 0.86 | 2.19 | 2.981 (13) | 154 |
N25—H25B···S2 | 0.86 | 2.73 | 3.570 (10) | 166 |
N26—H26A···O12 | 0.86 | 2.29 | 3.061 (13) | 149 |
N26—H26B···S3 | 0.86 | 2.68 | 3.519 (9) | 166 |
N27—H27A···S3vii | 0.86 | 2.97 | 3.497 (9) | 121 |
N27—H27B···S1 | 0.86 | 2.68 | 3.532 (10) | 170 |
N28—H28A···S2v | 0.86 | 2.98 | 3.415 (9) | 114 |
N28—H28B···S4 | 0.86 | 2.75 | 3.594 (11) | 167 |
Symmetry codes: (i) x−1/2, −y+1/2, z+1/2; (ii) x, −y+1, z+1/2; (iii) x+1/2, y+1/2, z; (iv) x−1/2, −y+3/2, z+1/2; (v) x−1/2, y+1/2, z; (vi) x, −y+1, z−1/2; (vii) x−1/2, y−1/2, z; (viii) x+1/2, y−1/2, z. |
Experimental details
Crystal data | |
Chemical formula | [Cu6(CH4N2S)14](ClO4)6 |
Mr | 2043.65 |
Crystal system, space group | Monoclinic, Cc |
Temperature (K) | 293 |
a, b, c (Å) | 17.229 (2), 15.363 (3), 27.639 (5) |
β (°) | 93.30 (15) |
V (Å3) | 7304 (2) |
Z | 4 |
Radiation type | Mo Kα |
µ (mm−1) | 2.42 |
Crystal size (mm) | 0.24 × 0.2 × 0.18 |
Data collection | |
Diffractometer | Nonius MACH3 diffractometer |
Absorption correction | ψ scan (North et al., 1968) |
Tmin, Tmax | 0.568, 0.647 |
No. of measured, independent and observed [I > 2σ(I)] reflections | 7120, 6610, 5203 |
Rint | 0.046 |
(sin θ/λ)max (Å−1) | 0.594 |
Refinement | |
R[F2 > 2σ(F2)], wR(F2), S | 0.039, 0.110, 1.03 |
No. of reflections | 6610 |
No. of parameters | 829 |
No. of restraints | 4 |
H-atom treatment | H-atom parameters constrained |
w = 1/[σ2(Fo2) + (0.0685P)2 + 13.3767P] where P = (Fo2 + 2Fc2)/3 | |
Δρmax, Δρmin (e Å−3) | 1.22, −0.86 |
Absolute structure | Flack (1983), with how many Friedel pairs |
Absolute structure parameter | 0.015 (17) |
Computer programs: CAD-4 EXPRESS (Enraf–Nonius, 1994), CAD-4 EXPRESS, XCAD4 (Harms & Wocadlo, 1995), SHELXTL/PC (Bruker, 2000), SHELXTL/PC and PLATON (Spek, 2003), SHELXL97 (Sheldrick, 1997).
Cu1—S9 | 2.455 (2) | Cu3—S3 | 2.271 (3) |
Cu1—Cu2 | 2.807 (4) | Cu3—Cu4 | 2.768 (3) |
Cu2—S9—Cu5 | 119.08 (13) | Cu4—S11—Cu3 | 71.02 (14) |
Cu2—S9—Cu1 | 71.69 (14) | Cu6—S11—Cu3 | 129.45 (11) |
Cu5—S9—Cu1 | 132.65 (11) | Cu3—S12—Cu5 | 117.68 (13) |
Cu1—S10—Cu6 | 117.02 (13) | Cu3—S12—Cu4 | 71.04 (14) |
Cu1—S10—Cu2 | 72.07 (15) | Cu5—S12—Cu4 | 130.08 (11) |
Cu6—S10—Cu2 | 128.04 (11) | Cu2—S13—Cu3 | 120.77 (14) |
Cu4—S11—Cu6 | 120.88 (13) | Cu1—S14—Cu4 | 119.27 (13) |
D—H···A | D—H | H···A | D···A | D—H···A |
N1—H1A···O43i | 0.86 | 2.43 | 3.080 (17) | 133 |
N1—H1A···O33ii | 0.86 | 2.59 | 3.289 (19) | 139 |
N2—H2A···O43i | 0.86 | 2.32 | 2.997 (14) | 136 |
N2—H2A···N14 | 0.86 | 2.55 | 3.125 (15) | 125 |
N2—H2B···S14 | 0.86 | 2.74 | 3.556 (10) | 158 |
N3—H3A···O42 | 0.86 | 2.57 | 3.30 (2) | 143 |
N4—H4A···O41 | 0.86 | 2.21 | 3.068 (13) | 177 |
N4—H4B···S13 | 0.86 | 2.67 | 3.500 (10) | 163 |
N5—H5B···S13 | 0.86 | 2.92 | 3.725 (11) | 157 |
N6—H6A···O31 | 0.86 | 2.47 | 3.153 (15) | 137 |
N6—H6A···O52 | 0.86 | 2.55 | 3.140 (17) | 127 |
N6—H6B···S8iii | 0.86 | 3.00 | 3.528 (10) | 121 |
N7—H7A···O54iv | 0.86 | 2.45 | 3.121 (14) | 135 |
N7—H7B···S14 | 0.86 | 2.79 | 3.624 (9) | 164 |
N8—H8A···O51iv | 0.86 | 2.16 | 3.009 (15) | 171 |
N8—H8B···O12v | 0.86 | 2.60 | 3.430 (13) | 162 |
N9—H9B···S7vi | 0.86 | 2.42 | 3.276 (12) | 175 |
N10—H10B···S9 | 0.86 | 2.66 | 3.422 (12) | 149 |
N11—H11A···O23ii | 0.86 | 2.25 | 3.000 (16) | 146 |
N12—H12A···O24ii | 0.86 | 2.49 | 3.270 (16) | 152 |
N12—H12A···O41ii | 0.86 | 2.59 | 3.177 (14) | 126 |
N12—H12B···S7 | 0.86 | 2.72 | 3.571 (12) | 171 |
N13—H13A···O31ii | 0.86 | 2.11 | 2.954 (13) | 166 |
N13—H13B···O53ii | 0.86 | 2.40 | 2.947 (15) | 122 |
N14—H14A···O33ii | 0.86 | 2.22 | 3.016 (16) | 153.4 |
N14—H14B···O61 | 0.86 | 2.53 | 3.341 (14) | 157 |
N15—H15A···O62vi | 0.86 | 2.26 | 3.078 (16) | 160 |
N16—H16A···O61vi | 0.86 | 2.31 | 3.098 (12) | 152 |
N16—H16A···O54vii | 0.86 | 2.60 | 3.124 (12) | 120 |
N16—H16B···S5 | 0.86 | 2.58 | 3.439 (10) | 173 |
N17—H17A···O21vii | 0.86 | 2.23 | 2.994 (14) | 147 |
N17—H17B···S2 | 0.86 | 2.73 | 3.507 (10) | 151 |
N18—H18A···O21vii | 0.86 | 2.23 | 2.991 (14) | 147 |
N18—H18B···S8 | 0.86 | 2.64 | 3.483 (10) | 166 |
N19—H19A···O63viii | 0.86 | 2.50 | 3.230 (14) | 144 |
N19—H19B···S6 | 0.86 | 2.72 | 3.565 (10) | 167 |
N20—H20A···O63viii | 0.86 | 2.25 | 3.033 (13) | 152 |
N20—H20B···S1 | 0.86 | 2.71 | 3.485 (10) | 150 |
N21—H21A···O64iii | 0.86 | 2.48 | 3.236 (13) | 147 |
N21—H21A···O43ii | 0.86 | 2.58 | 3.067 (13) | 117 |
N21—H21B···S6 | 0.86 | 2.66 | 3.507 (11) | 168 |
N22—H22A···O64iii | 0.86 | 2.27 | 3.075 (13) | 155 |
N22—H22B···O13v | 0.86 | 2.50 | 3.070 (15) | 124 |
N23—H23A···O32 | 0.86 | 2.61 | 3.134 (15) | 121 |
N23—H23B···S8 | 0.86 | 2.89 | 3.623 (9) | 144 |
N24—H24A···O22v | 0.86 | 2.30 | 3.096 (14) | 154 |
N24—H24B···O13v | 0.86 | 2.45 | 3.035 (13) | 126 |
N25—H25A···O12 | 0.86 | 2.19 | 2.981 (13) | 154 |
N25—H25B···S2 | 0.86 | 2.73 | 3.570 (10) | 166 |
N26—H26A···O12 | 0.86 | 2.29 | 3.061 (13) | 149 |
N26—H26B···S3 | 0.86 | 2.68 | 3.519 (9) | 166 |
N27—H27A···S3vii | 0.86 | 2.97 | 3.497 (9) | 121 |
N27—H27B···S1 | 0.86 | 2.68 | 3.532 (10) | 170 |
N28—H28A···S2v | 0.86 | 2.98 | 3.415 (9) | 114 |
N28—H28B···S4 | 0.86 | 2.75 | 3.594 (11) | 167 |
Symmetry codes: (i) x−1/2, −y+1/2, z+1/2; (ii) x, −y+1, z+1/2; (iii) x+1/2, y+1/2, z; (iv) x−1/2, −y+3/2, z+1/2; (v) x−1/2, y+1/2, z; (vi) x, −y+1, z−1/2; (vii) x−1/2, y−1/2, z; (viii) x+1/2, y−1/2, z. |
In organic sulfur compounds, thiourea and its derivatives are of great importance. These compounds have been introduced in almost all branches of chemistry and they are commercialized as dyes, photographic films, elastometry plastics and textiles (Chynoweth, 1995). Thiourea complexes with gold(I) are of interest as medicines for the control of rheumatoid arthritis and in cancer chemotherapy (Parish & Cottrill, 1987). The crystal structures of bis(µ2-thiourea)hexakis(thiourea)disilver(I) diperchlorate (Udupa & Krebs, 1973), bis[(µ2-N,N-dimethylthiourea-S,S-bis(N,N'-dimethylthiourea-S)silver(I)] diperchlorate (Pakawatchai et al., 1996), bis(N,N'-dimethylthiourea-S)gold(I) perchlorate and bis(N,N'-diethylthiourea-S)gold(I) perchlorate (Staples et al., 1997), tetrathioureacopper(I) chloride (Lakshmi et al., 2003) and hexakis(thiourea)lead(II) perchlorate (Goldberg & Herbstein, 1972) have already been published. The formation of a complex of thiourea with copper perchlorate has already been reported as bis(µ2-thiourea)tetrakis(thiourea)dicopper(I) diperchlorate in P21/c (Hanic & Durcahska, 1969).
In the present investigation, the title compound, (I), crystallized in the non-centrosymmetric space group Cc with six CuI cations, 14 thiourea molecules and six perchlorate anions in the asymmetric unit. The high coordination property of Cu with thiourea molecules leads to a truncated octahedron, a cage-like structure. Thiourea molecules coordinate two metal atoms through the S atom in such a manner that the distorted tetrahedral environment of every Cu atom includes four S atoms. This forms a closely packed Cu–thiourea cage, which has a void space inside (Filinchuk et al., 1990). During the structure analysis, it was observed that the unit cell contains large accessible voids in the crystal structure which tend to host disordered solvent water molecules. This affects the diffraction pattern, mostly at low scattering angles; this diffuse scattering effect was corrected with the SQUEEZE program (PLATON; Spek, 2003). Even though compound (I) crystallizes in a non-centrosymmetric space group, the truncated octahedron has a pseudo-inversion centre.
There are two metal–metal interactions in the structure of (I), with Cu···Cu distances of 2.807 (4) and 2.768 (3) Å, involving four Cu atoms (Cu1, Cu2, Cu3 and Cu4) to form a cross-sectional plane, with atoms S13 and S14 bisecting the octahedral core into two distorted pyramids (Table 1). Three types of Cu—S—Cu bond angles are observed in the Cu–thiourea cage of (I), namely normal (= 120°), short (<120°) and expanded (>120 °) (Table 1). The short Cu—S—Cu bonds are the consequence of the Cu···Cu interactions. The cage (truncated octahedron) is formed by four points (atoms) and two parallel planes (Fig 2). The four points are the centres of the atoms Cu5, Cu6, S13 and S14 and the two planes are formed by two sets of four atoms, namely Cu1—S9—Cu2—S10 and Cu3—S11—Cu4—S12. These two planes are parallel to the (101) plane of the unit cell, i.e. the octahedral shape is truncated parallel to the ac plane. The Cu···Cu interactions between these parallel planes through atoms S13 and S14, and the Cu···Cu interactions between the atoms in the planes (Cu1, Cu2, Cu3 and Cu4) with the Cu atoms in the edges (Cu5 and Cu6) through atoms S9, S10, S11 and S12, have expanded Cu—S—Cu angles. These expanded Cu—S—Cu angles lead to slightly elongated octahedra along the directions of the edges of the points. The faces of the octahedra can be obtained by leaving the four points (atoms) and treating six planes constituted by the sets of atoms Cu1/Cu2/S9/S10 (0.089 Å), Cu1/Cu4/S9/S12 (0.086 Å), Cu2/Cu3/S9/S12 (0.0176 Å), Cu3/Cu4/S11/S12 (0.0915 Å), Cu1/Cu4/S10/S11 (0.0157 Å) and Cu2/Cu3/S10/S11 (0.0084 Å) (the values in parentheses are the r.m.s. deviations of the fitted atoms in the mean plane). The angles between these planes of the truncated octahedron vary from 54.0 (2) to 89.8 (2)°.
All the thiourea groups in (I) are planar. Of the 14 thiourea molecules, eight are outside the cage (S1–S8) and not involved in bridging between Cu atoms. In the other six thiourea molecules, two (S13 and S14) each bridge two Cu atoms as µ2-bridging ligands and the other four participate in µ3-bridging. The tetrahedral geometry of the CuS4 group is disturbed because of the different coordination nature of the thiourea molecules in relation to the Cu atoms.
All the perchlorate groups show nearly tetrahedral symmetry and play a vital role in hydrogen bonding, which stabilizes the crystal structure. The average Cl—O bond distances and O—Cl—O bond angles are 1.407 Å and 109.45°, respectively (Table 1).
The S atoms which are just outside the Cu—thiourea core participate in strong and moderate hydrogen bonding. The N9—H9B···S7i intermolecular bond seems to be a strong bond [3.276 Å and 174.66°]. Interestingly, there is only one N—H···N hydrogen bond (N2—H2A···N14) found in the three-centred hydrogen-bonding network. The N—H···O hydrogen bonds between the thiourea molecules and the perchlorate groups seem to be moderate hydrogen bonds. The excess of acceptor atoms in the structure leads to a large number of three-centred hydrogen bonds (Table 2).