Skip to main content
NCBI home page
Acta Crystallographica Section E: Structure Reports Online logoLink to Acta Crystallographica Section E: Structure Reports Online
. 2010 Aug 11;66(Pt 9):m1064. doi: 10.1107/S160053681003076X

Tris(2-chloro­benz­yl)(1H-1,2,4-triazole-5-thiol­ato-κS)tin(IV)–tris­(2-chloro­benz­yl)(4H-1,2,4-triazole-3-thiol­ato-κS)tin(IV) (1/1)

Thy Chun Keng a, Kong Mun Lo a, Seik Weng Ng a,*
PMCID: PMC3008140  PMID: 21588487

Abstract

Tris(2-chloro­benz­yl)tin hydroxide condenses with 3-mercapto-1,2,4-triazole to form the 1:1 cocrystal of the title compound, [Sn(C7H6Cl)3(C2H2N3S)]. The asymmetric unit contains two mol­ecules which differ only in the position of the nitro­gen-bound H atom of the triazole ring; one mol­ecule is linked to the other mol­ecule by an N—H⋯N hydrogen bond. In the second mol­ecule, two of the chloro­benzyl units are disordered over two positions in a 0.73 (1):0.27 (1) ratio. The Sn atom in both mol­ecules shows a distorted tetra­hedral SnSC3 coordination.

Related literature

For comparison crystal structures, see: Aziz-ur-Rehman et al. (2006); Ma et al. (2007).graphic file with name e-66-m1064-scheme1.jpg

Experimental

Crystal data

  • [Sn(C7H6Cl)3(C2H2N3S)]

  • M r = 595.52

  • Triclinic, Inline graphic

  • a = 9.696 (6) Å

  • b = 11.385 (5) Å

  • c = 23.670 (11) Å

  • α = 83.06 (2)°

  • β = 79.200 (18)°

  • γ = 68.559 (18)°

  • V = 2385 (2) Å3

  • Z = 4

  • Mo Kα radiation

  • μ = 1.51 mm−1

  • T = 100 K

  • 0.35 × 0.25 × 0.15 mm

Data collection

  • Bruker SMART APEX diffractometer

  • Absorption correction: multi-scan (SADABS; Sheldrick, 1996) T min = 0.620, T max = 0.805

  • 22480 measured reflections

  • 10780 independent reflections

  • 9232 reflections with I > 2σ(I)

  • R int = 0.031

Refinement

  • R[F 2 > 2σ(F 2)] = 0.034

  • wR(F 2) = 0.091

  • S = 1.01

  • 10780 reflections

  • 560 parameters

  • 104 restraints

  • H-atom parameters constrained

  • Δρmax = 1.41 e Å−3

  • Δρmin = −0.81 e Å−3

Data collection: APEX2 (Bruker, 2009); cell refinement: SAINT (Bruker, 2009); data reduction: SAINT; program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: X-SEED (Barbour, 2001); software used to prepare material for publication: publCIF (Westrip, 2010).

Supplementary Material

Crystal structure: contains datablocks global, I. DOI: 10.1107/S160053681003076X/xu5006sup1.cif

e-66-m1064-sup1.cif (42.3KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S160053681003076X/xu5006Isup2.hkl

e-66-m1064-Isup2.hkl (527.1KB, hkl)

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

Table 1. Hydrogen-bond geometry (Å, °).

D—H⋯A D—H H⋯A DA D—H⋯A
N2—H2⋯N5 0.86 2.07 2.916 (4) 170
Open in a new tab

Acknowledgments

We thank the University of Malaya (RG020/09AFR) for supporting this study.

supplementary crystallographic information

Comment

Triorganotin(IV) derivatives of thiols generally exists as tetrahedral molecules because the sulfidelinkage lowers the Lewis acidity of tin; for 1,2,4-triazolyl-3-thiolates, however, the nitrogen sites sometimes engage in intermolecular coordination and polymeric compounds are generated. Among the triorganotin 1,2,4-triazolyl-3-thiolates, only carbon- and nitrogen-substituted derivatives have been characterized by crystal structure analysis, e.g., polymeric 4-methyl-1,2,4-triazole-3-thiolato)trimethyltin (Aziz-ur-Rehman et al., 2006) and monomeric (4-methyl-5-trifluoromethyl-1,2,4-triazole-3-thiolato)triphenyltin (Ma et al., 2007). 3-Mercapto-1,2,4-triazole itself has a nitrogen-bound hydrogen atom. It its condensation with tris(2-chlorobenzyl)tin hydroxide, the resulting product retains this hydrogen atom in the heterocyclic portion. The product is, in fact, a 1:1 co-crystal oftris(2-chlorobenzyl)(1,2,4-triazole-5-thiolato)tin(IV)–tris(2-\ chlorobenzyl)(1,3,4-triazole-2-thiolato)tin (Scheme I). The two molecular components are isoelectronic but differ only in the position of the nitrogen-bound hydrogen atom of the triazolyl ring. The tin atom in the two molecules show tetrahedral coordination. The first component (Fig. 1) is linked to the second component (Fig. 2) by an N–H···N hydrogen bond.

Experimental

Tris(2-chlorobenzyl)tin hydroxide (0.5 g, 1 mmol) and 3-mercapto-1,2,4-triazole (0.1 g, 1 mmol) were dissolved in 50 m of ethanol. The solution was heated for 2 h. Colorless crystals separated from the filtered solution after several days.

Refinement

Carbon-bound H-atoms were placed in calculated positions (C–H 0.95 to 0.99 Å) and were included in the refinement in the riding model approximation, with U(H) set to 1.2U(C).

For the heterocyclic ring in the first independent molecule, the amino H-atom was placed on the N2 atom as both the N1 and N3 atoms were within 2.8 Å of their symmetry-generated equivalents. The N2 atom forms a hydrogen bond to the N5 atom of the other independent molecule. For the heterocylic ring in the second independent molecule, a hydrogen atom placed on the N4 atom would be too close to the H23 atom of another molecule. Since the N5 atom is already an acceptor site, the N6 atom would then be the protonated atom. The N–H distances were set to 0.86 Å; the temperature factors were tied to those of the parent atoms.

The positioning of the amino H-atoms gives rise to different names for the two molecular species.

For the second molecule, two chlorobenzyl substitutents are disordered; the occupancies of the two could not be separately refined, and were assumed to be identical. The aromatic ring were refined as rigid hexagons of 1.39 Å sides. The tin–carbon distances for each pair of Sn–C bonds were restrained to within 0.01 Å of each other. The carbonmethylene–carbonphenylene distances were restrained to 1.50±0.01 Å and the carbon–chlorine distances were restrained to 1.75±0.01 Å. The temperature factors of the primed atoms were set to those of the unprimed ones; the anisotropic temperature factors of the disordered carbon atoms were restrained to be nearly isotropic. The disorder refined to a 79:21 ratio.

The final difference Fourier map had a highest peak in the vicinity of C26.

Figures

Fig. 1.

Fig. 1.

Open in a new tab

Thermal ellipsoid plot (Barbour, 2001) tris(2-chlorobenzyl)(1,2,4-triazoleyl-5-thiolato)tin at the 70% probability level; hydrogen atoms are drawn as spheres of arbitrary radius.

Fig. 2.

Fig. 2.

Open in a new tab

Thermal ellipsoid plot (Barbour, 2001) tris(2-chlorobenzyl)(1,3,4-triazole-2-thiolato)tin at the 70% probability level; hydrogen atoms are drawn as spheres of arbitrary radius.

Crystal data

[Sn(C7H6Cl)3(C2H2N3S)] Z = 4
Mr = 595.52 F(000) = 1184
Triclinic, P1 Dx = 1.658 Mg m3
Hall symbol: -P 1 Mo Kα radiation, λ = 0.71073 Å
a = 9.696 (6) Å Cell parameters from 9913 reflections
b = 11.385 (5) Å θ = 2.2–28.3°
c = 23.670 (11) Å µ = 1.51 mm1
α = 83.06 (2)° T = 100 K
β = 79.200 (18)° Polycrystals, colorless
γ = 68.559 (18)° 0.35 × 0.25 × 0.15 mm
V = 2385 (2) Å3
Open in a new tab

Data collection

Bruker SMART APEX diffractometer 10780 independent reflections
Radiation source: fine-focus sealed tube 9232 reflections with I > 2σ(I)
graphite Rint = 0.031
ω scans θmax = 27.5°, θmin = 0.9°
Absorption correction: multi-scan (SADABS; Sheldrick, 1996) h = −12→12
Tmin = 0.620, Tmax = 0.805 k = −14→14
22480 measured reflections l = −28→30
Open in a new tab

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)] = 0.034 Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.091 H-atom parameters constrained
S = 1.01 w = 1/[σ2(Fo2) + (0.0391P)2 + 3.8486P] where P = (Fo2 + 2Fc2)/3
10780 reflections (Δ/σ)max = 0.001
560 parameters Δρmax = 1.41 e Å3
104 restraints Δρmin = −0.81 e Å3
Open in a new tab

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

x y z Uiso*/Ueq Occ. (<1)
Sn1 0.64284 (2) 0.717035 (18) 0.636789 (9) 0.01646 (6)
Sn2 0.82300 (2) 0.96070 (2) 0.862329 (9) 0.02124 (6)
Cl1 0.62336 (10) 0.70680 (8) 0.46944 (4) 0.03049 (18)
Cl2 0.33404 (9) 0.65825 (8) 0.75698 (4) 0.03087 (18)
Cl3 1.04011 (8) 0.67040 (7) 0.67373 (4) 0.02481 (16)
Cl4 0.5643 (5) 0.7542 (3) 0.85926 (18) 0.0329 (5) 0.73 (1)
Cl4' 0.5454 (17) 0.7760 (9) 0.8523 (6) 0.0329 (5) 0.27
Cl5 0.89631 (14) 0.75253 (11) 0.99446 (4) 0.0507 (3)
Cl6 0.7594 (2) 1.12134 (15) 1.00302 (6) 0.0495 (4) 0.73 (1)
Cl6' 0.8829 (6) 1.0551 (4) 0.98374 (18) 0.0495 (4) 0.27
S1 0.54143 (8) 0.95007 (7) 0.63370 (3) 0.02102 (15)
S2 0.75356 (9) 0.97103 (9) 0.76652 (3) 0.02605 (17)
N1 0.8550 (3) 0.9981 (2) 0.51761 (11) 0.0189 (5)
N2 0.7975 (3) 0.9781 (2) 0.57403 (11) 0.0175 (5)
H2 0.8399 0.9692 0.6039 0.021*
N3 0.6304 (3) 0.9951 (2) 0.51800 (11) 0.0185 (5)
N4 1.0966 (3) 0.9713 (3) 0.65034 (11) 0.0222 (5)
N5 0.9523 (3) 0.9742 (2) 0.66902 (11) 0.0193 (5)
N6 1.0439 (3) 0.9690 (2) 0.74744 (11) 0.0191 (5)
H6 1.0547 0.9679 0.7828 0.023*
C1 0.8193 (3) 0.6591 (3) 0.56364 (13) 0.0201 (6)
H1A 0.8068 0.7297 0.5339 0.024*
H1B 0.9180 0.6384 0.5760 0.024*
C2 0.8145 (3) 0.5466 (3) 0.53875 (13) 0.0193 (6)
C3 0.7299 (3) 0.5566 (3) 0.49549 (14) 0.0221 (6)
C4 0.7265 (4) 0.4518 (3) 0.47200 (15) 0.0258 (7)
H4 0.6698 0.4624 0.4419 0.031*
C5 0.8065 (4) 0.3317 (3) 0.49289 (16) 0.0285 (7)
H5 0.8041 0.2593 0.4775 0.034*
C6 0.8897 (4) 0.3182 (3) 0.53623 (15) 0.0268 (7)
H6A 0.9438 0.2360 0.5510 0.032*
C7 0.8948 (3) 0.4238 (3) 0.55845 (14) 0.0227 (6)
H7 0.9542 0.4124 0.5877 0.027*
C8 0.4607 (3) 0.6561 (3) 0.62835 (15) 0.0225 (6)
H8A 0.3640 0.7207 0.6434 0.027*
H8B 0.4611 0.6488 0.5871 0.027*
C9 0.4733 (3) 0.5316 (3) 0.66031 (14) 0.0212 (6)
C10 0.4184 (3) 0.5209 (3) 0.71877 (15) 0.0236 (7)
C11 0.4267 (4) 0.4066 (3) 0.74811 (16) 0.0287 (7)
H11 0.3848 0.4037 0.7877 0.034*
C12 0.4971 (4) 0.2957 (3) 0.71903 (17) 0.0317 (8)
H12 0.5040 0.2163 0.7386 0.038*
C13 0.5569 (4) 0.3018 (3) 0.66141 (17) 0.0300 (8)
H13 0.6071 0.2263 0.6415 0.036*
C14 0.5437 (3) 0.4178 (3) 0.63259 (15) 0.0246 (7)
H14 0.5836 0.4204 0.5928 0.029*
C15 0.7312 (3) 0.6453 (3) 0.71648 (14) 0.0225 (6)
H15A 0.7609 0.7092 0.7309 0.027*
H15B 0.6532 0.6274 0.7460 0.027*
C16 0.8643 (3) 0.5269 (3) 0.70591 (13) 0.0212 (6)
C17 1.0099 (3) 0.5266 (3) 0.68595 (14) 0.0213 (6)
C18 1.1331 (4) 0.4161 (3) 0.67527 (15) 0.0254 (7)
H18 1.2305 0.4194 0.6622 0.030*
C19 1.1113 (4) 0.3010 (3) 0.68398 (16) 0.0307 (8)
H19 1.1941 0.2246 0.6770 0.037*
C20 0.9681 (4) 0.2977 (3) 0.70295 (16) 0.0292 (7)
H20 0.9529 0.2189 0.7088 0.035*
C21 0.8477 (4) 0.4085 (3) 0.71337 (14) 0.0247 (7)
H21 0.7505 0.4044 0.7260 0.030*
C22 0.6639 (3) 0.9754 (3) 0.57264 (13) 0.0160 (5)
C23 0.7537 (3) 1.0078 (3) 0.48527 (13) 0.0196 (6)
H23 0.7663 1.0218 0.4445 0.024*
C24 0.6163 (7) 0.955 (2) 0.9154 (3) 0.023 (2) 0.73 (1)
H24A 0.6316 0.8675 0.9309 0.028* 0.73 (1)
H24B 0.5933 1.0084 0.9486 0.028* 0.73 (1)
C25 0.4840 (10) 1.0009 (6) 0.8834 (5) 0.0233 (10) 0.73 (1)
C26 0.4562 (9) 0.9136 (4) 0.8551 (5) 0.0232 (9) 0.73 (1)
C27 0.3408 (7) 0.9537 (3) 0.8223 (3) 0.0251 (10) 0.73 (1)
H27 0.3218 0.8940 0.8029 0.030* 0.73 (1)
C28 0.2531 (5) 1.0810 (4) 0.8177 (2) 0.0253 (11) 0.73 (1)
H28 0.1741 1.1084 0.7953 0.030* 0.73 (1)
C29 0.2808 (6) 1.1683 (3) 0.8460 (3) 0.0342 (13) 0.73 (1)
H29 0.2209 1.2553 0.8429 0.041* 0.73 (1)
C30 0.3963 (9) 1.1282 (5) 0.8788 (4) 0.0297 (11) 0.73 (1)
H30 0.4153 1.1879 0.8982 0.036* 0.73 (1)
C24' 0.6154 (19) 0.969 (6) 0.9188 (9) 0.023 (2) 0.27
H24C 0.6250 0.8847 0.9375 0.028* 0.27 (1)
H24D 0.5946 1.0286 0.9493 0.028* 0.27 (1)
C25' 0.489 (3) 1.0132 (19) 0.8843 (15) 0.0233 (10) 0.27
C26' 0.448 (3) 0.9380 (11) 0.8533 (14) 0.0232 (9) 0.27
C27' 0.325 (2) 0.9913 (12) 0.8246 (10) 0.0251 (10) 0.27
H27' 0.2972 0.9400 0.8034 0.030* 0.27 (1)
C28' 0.2423 (17) 1.1199 (13) 0.8269 (7) 0.0253 (11) 0.27
H28' 0.1580 1.1563 0.8073 0.030* 0.27 (1)
C29' 0.283 (2) 1.1950 (10) 0.8579 (8) 0.0342 (13) 0.27
H29' 0.2264 1.2829 0.8595 0.041* 0.27 (1)
C30' 0.406 (3) 1.1417 (18) 0.8866 (12) 0.0297 (11) 0.27
H30' 0.4339 1.1931 0.9077 0.036* 0.27 (1)
C31 1.0163 (4) 0.7921 (4) 0.86879 (17) 0.0355 (8)
H31A 1.0840 0.7805 0.8314 0.043*
H31B 1.0716 0.8012 0.8982 0.043*
C32 0.9715 (4) 0.6791 (3) 0.88492 (15) 0.0281 (7)
C33 0.9136 (4) 0.6515 (4) 0.94113 (16) 0.0309 (8)
C34 0.8664 (5) 0.5499 (5) 0.9566 (2) 0.0546 (14)
H34 0.8277 0.5334 0.9954 0.066*
C35 0.8772 (7) 0.4727 (5) 0.9137 (3) 0.075 (2)
H35 0.8465 0.4015 0.9231 0.090*
C36 0.9321 (7) 0.4986 (4) 0.8574 (3) 0.0683 (18)
H36 0.9370 0.4462 0.8282 0.082*
C37 0.9799 (5) 0.5996 (4) 0.84321 (19) 0.0441 (10)
H37 1.0193 0.6153 0.8043 0.053*
C38 0.8610 (11) 1.1337 (7) 0.8715 (5) 0.038 (2) 0.73 (1)
H38A 0.9382 1.1147 0.8967 0.046* 0.73 (1)
H38B 0.9007 1.1640 0.8332 0.046* 0.73 (1)
C39 0.7219 (3) 1.2377 (3) 0.89641 (13) 0.0305 (10) 0.73 (1)
C40 0.6696 (4) 1.2378 (3) 0.95525 (12) 0.0314 (11) 0.73 (1)
C41 0.5421 (4) 1.3355 (3) 0.97739 (11) 0.0455 (14) 0.73 (1)
H41 0.5064 1.3355 1.0176 0.055* 0.73 (1)
C42 0.4669 (4) 1.4330 (3) 0.94069 (16) 0.0513 (16) 0.73 (1)
H42 0.3798 1.4998 0.9558 0.062* 0.73 (1)
C43 0.5192 (4) 1.4329 (3) 0.88185 (15) 0.0451 (13) 0.73 (1)
H43 0.4678 1.4996 0.8568 0.054* 0.73 (1)
C44 0.6467 (4) 1.3353 (3) 0.85971 (10) 0.0289 (10) 0.73 (1)
H44 0.6824 1.3352 0.8195 0.035* 0.73 (1)
C38' 0.863 (3) 1.137 (2) 0.8598 (17) 0.038 (2) 0.27
H38C 0.9621 1.1216 0.8704 0.046* 0.27 (1)
H38D 0.8597 1.1789 0.8205 0.046* 0.27 (1)
C39' 0.7410 (11) 1.2202 (10) 0.9021 (4) 0.0305 (10) 0.27
C40' 0.7423 (10) 1.1869 (8) 0.9605 (4) 0.0314 (11) 0.27
C41' 0.6279 (13) 1.2578 (10) 1.0009 (3) 0.0455 (14) 0.27
H41' 0.6287 1.2350 1.0408 0.055* 0.27 (1)
C42' 0.5121 (11) 1.3620 (10) 0.9829 (4) 0.0513 (16) 0.27
H42' 0.4339 1.4104 1.0105 0.062* 0.27 (1)
C43' 0.5108 (11) 1.3953 (9) 0.9245 (5) 0.0451 (13) 0.27
H43' 0.4317 1.4665 0.9122 0.054* 0.27 (1)
C44' 0.6253 (13) 1.3244 (10) 0.8841 (3) 0.0289 (10) 0.27
H44' 0.6244 1.3472 0.8441 0.035* 0.27 (1)
C45 0.9244 (3) 0.9717 (3) 0.72669 (13) 0.0188 (6)
C46 1.1446 (3) 0.9682 (3) 0.69898 (13) 0.0203 (6)
H46 1.2430 0.9656 0.7002 0.024*
Open in a new tab

Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
Sn1 0.01163 (10) 0.01449 (10) 0.02346 (11) −0.00542 (8) −0.00056 (7) −0.00253 (7)
Sn2 0.01800 (11) 0.02336 (12) 0.02437 (12) −0.00923 (9) −0.00485 (8) −0.00019 (8)
Cl1 0.0314 (4) 0.0200 (4) 0.0403 (5) −0.0047 (3) −0.0153 (4) −0.0016 (3)
Cl2 0.0206 (4) 0.0294 (4) 0.0421 (5) −0.0091 (3) 0.0041 (3) −0.0138 (4)
Cl3 0.0204 (4) 0.0200 (4) 0.0366 (4) −0.0100 (3) −0.0051 (3) −0.0006 (3)
Cl4 0.0486 (15) 0.0211 (13) 0.0303 (13) −0.0117 (11) −0.0123 (8) 0.0018 (9)
Cl4' 0.0486 (15) 0.0211 (13) 0.0303 (13) −0.0117 (11) −0.0123 (8) 0.0018 (9)
Cl5 0.0627 (7) 0.0537 (7) 0.0326 (5) −0.0101 (5) −0.0222 (5) −0.0013 (4)
Cl6 0.0773 (10) 0.0460 (8) 0.0423 (8) −0.0346 (8) −0.0306 (7) 0.0080 (6)
Cl6' 0.0773 (10) 0.0460 (8) 0.0423 (8) −0.0346 (8) −0.0306 (7) 0.0080 (6)
S1 0.0170 (3) 0.0154 (3) 0.0278 (4) −0.0055 (3) 0.0039 (3) −0.0023 (3)
S2 0.0184 (4) 0.0399 (5) 0.0237 (4) −0.0159 (3) −0.0053 (3) 0.0054 (3)
N1 0.0157 (12) 0.0193 (13) 0.0227 (13) −0.0082 (10) −0.0029 (10) 0.0010 (10)
N2 0.0150 (12) 0.0202 (13) 0.0197 (12) −0.0079 (10) −0.0057 (9) 0.0004 (10)
N3 0.0166 (12) 0.0160 (12) 0.0238 (13) −0.0063 (10) −0.0056 (10) 0.0010 (10)
N4 0.0186 (13) 0.0233 (14) 0.0240 (13) −0.0076 (11) −0.0018 (10) −0.0005 (11)
N5 0.0171 (12) 0.0220 (13) 0.0209 (13) −0.0094 (10) −0.0034 (10) −0.0001 (10)
N6 0.0180 (12) 0.0207 (13) 0.0194 (12) −0.0074 (10) −0.0048 (10) 0.0006 (10)
C1 0.0141 (13) 0.0236 (15) 0.0231 (15) −0.0086 (12) 0.0025 (11) −0.0054 (12)
C2 0.0118 (13) 0.0190 (15) 0.0262 (15) −0.0056 (11) 0.0028 (11) −0.0061 (12)
C3 0.0164 (14) 0.0185 (15) 0.0287 (16) −0.0036 (12) −0.0018 (12) −0.0019 (12)
C4 0.0245 (16) 0.0232 (16) 0.0321 (18) −0.0094 (14) −0.0043 (13) −0.0077 (13)
C5 0.0268 (17) 0.0204 (16) 0.0389 (19) −0.0113 (14) 0.0041 (14) −0.0091 (14)
C6 0.0177 (15) 0.0185 (15) 0.0381 (19) −0.0026 (12) 0.0038 (13) −0.0030 (13)
C7 0.0149 (14) 0.0228 (16) 0.0273 (16) −0.0048 (12) 0.0023 (12) −0.0040 (13)
C8 0.0128 (14) 0.0195 (15) 0.0379 (18) −0.0084 (12) −0.0041 (12) −0.0025 (13)
C9 0.0109 (13) 0.0173 (14) 0.0369 (18) −0.0060 (11) −0.0030 (12) −0.0050 (13)
C10 0.0122 (13) 0.0195 (15) 0.0388 (18) −0.0051 (12) −0.0004 (12) −0.0076 (13)
C11 0.0223 (16) 0.0274 (17) 0.0395 (19) −0.0135 (14) −0.0051 (14) 0.0022 (15)
C12 0.0230 (17) 0.0204 (16) 0.054 (2) −0.0091 (14) −0.0120 (15) 0.0055 (15)
C13 0.0160 (15) 0.0170 (15) 0.057 (2) −0.0032 (13) −0.0052 (15) −0.0094 (15)
C14 0.0130 (14) 0.0226 (16) 0.0385 (18) −0.0064 (12) −0.0019 (12) −0.0057 (14)
C15 0.0186 (15) 0.0229 (16) 0.0248 (16) −0.0067 (13) −0.0005 (12) −0.0032 (12)
C16 0.0201 (15) 0.0225 (16) 0.0221 (15) −0.0089 (13) −0.0053 (12) 0.0023 (12)
C17 0.0192 (15) 0.0175 (15) 0.0281 (16) −0.0069 (12) −0.0058 (12) 0.0002 (12)
C18 0.0148 (14) 0.0231 (16) 0.0362 (18) −0.0040 (13) −0.0070 (13) 0.0020 (13)
C19 0.0225 (17) 0.0190 (16) 0.044 (2) 0.0007 (13) −0.0085 (14) 0.0031 (14)
C20 0.0308 (18) 0.0195 (16) 0.0377 (19) −0.0102 (14) −0.0086 (15) 0.0068 (14)
C21 0.0203 (15) 0.0245 (16) 0.0304 (17) −0.0104 (13) −0.0053 (13) 0.0048 (13)
C22 0.0122 (13) 0.0126 (13) 0.0227 (14) −0.0038 (11) −0.0020 (11) −0.0017 (11)
C23 0.0179 (14) 0.0171 (14) 0.0226 (15) −0.0051 (12) −0.0035 (11) 0.0011 (11)
C24 0.0267 (16) 0.028 (5) 0.0201 (18) −0.0167 (16) −0.0017 (13) −0.005 (2)
C25 0.0197 (16) 0.034 (2) 0.0220 (16) −0.0179 (17) 0.0001 (12) −0.0017 (18)
C26 0.0288 (19) 0.021 (2) 0.0219 (17) −0.014 (2) −0.0002 (14) 0.001 (3)
C27 0.029 (2) 0.028 (3) 0.0266 (19) −0.019 (3) −0.0029 (17) −0.007 (3)
C28 0.0201 (18) 0.028 (3) 0.031 (3) −0.010 (2) −0.0047 (17) −0.010 (2)
C29 0.0265 (19) 0.028 (3) 0.051 (4) −0.011 (2) −0.005 (2) −0.012 (2)
C30 0.019 (2) 0.037 (2) 0.039 (3) −0.0146 (18) −0.0045 (17) −0.008 (2)
C24' 0.0267 (16) 0.028 (5) 0.0201 (18) −0.0167 (16) −0.0017 (13) −0.005 (2)
C25' 0.0197 (16) 0.034 (2) 0.0220 (16) −0.0179 (17) 0.0001 (12) −0.0017 (18)
C26' 0.0288 (19) 0.021 (2) 0.0219 (17) −0.014 (2) −0.0002 (14) 0.001 (3)
C27' 0.029 (2) 0.028 (3) 0.0266 (19) −0.019 (3) −0.0029 (17) −0.007 (3)
C28' 0.0201 (18) 0.028 (3) 0.031 (3) −0.010 (2) −0.0047 (17) −0.010 (2)
C29' 0.0265 (19) 0.028 (3) 0.051 (4) −0.011 (2) −0.005 (2) −0.012 (2)
C30' 0.019 (2) 0.037 (2) 0.039 (3) −0.0146 (18) −0.0045 (17) −0.008 (2)
C31 0.0222 (17) 0.034 (2) 0.043 (2) −0.0055 (15) −0.0066 (15) 0.0122 (16)
C32 0.0248 (17) 0.0248 (17) 0.0314 (18) −0.0021 (14) −0.0132 (14) 0.0036 (14)
C33 0.0321 (19) 0.0328 (19) 0.0324 (18) −0.0138 (16) −0.0168 (15) 0.0074 (15)
C34 0.052 (3) 0.062 (3) 0.066 (3) −0.039 (2) −0.038 (2) 0.039 (2)
C35 0.085 (4) 0.037 (3) 0.135 (6) −0.038 (3) −0.087 (4) 0.033 (3)
C36 0.087 (4) 0.031 (2) 0.099 (4) −0.005 (2) −0.074 (4) −0.005 (3)
C37 0.044 (2) 0.034 (2) 0.044 (2) 0.0098 (18) −0.0240 (19) −0.0100 (17)
C38 0.038 (2) 0.039 (2) 0.045 (5) −0.0258 (19) 0.009 (3) −0.015 (2)
C39 0.034 (2) 0.034 (2) 0.033 (2) −0.0213 (19) −0.0053 (17) −0.0086 (17)
C40 0.039 (3) 0.030 (3) 0.033 (2) −0.019 (2) −0.006 (2) −0.009 (2)
C41 0.058 (4) 0.040 (3) 0.043 (3) −0.026 (3) 0.008 (2) −0.017 (2)
C42 0.054 (4) 0.046 (3) 0.058 (4) −0.021 (3) −0.001 (3) −0.021 (3)
C43 0.052 (3) 0.039 (3) 0.057 (3) −0.023 (3) −0.024 (3) −0.001 (2)
C44 0.048 (3) 0.036 (2) 0.013 (2) −0.028 (2) −0.006 (2) 0.003 (2)
C38' 0.038 (2) 0.039 (2) 0.045 (5) −0.0258 (19) 0.009 (3) −0.015 (2)
C39' 0.034 (2) 0.034 (2) 0.033 (2) −0.0213 (19) −0.0053 (17) −0.0086 (17)
C40' 0.039 (3) 0.030 (3) 0.033 (2) −0.019 (2) −0.006 (2) −0.009 (2)
C41' 0.058 (4) 0.040 (3) 0.043 (3) −0.026 (3) 0.008 (2) −0.017 (2)
C42' 0.054 (4) 0.046 (3) 0.058 (4) −0.021 (3) −0.001 (3) −0.021 (3)
C43' 0.052 (3) 0.039 (3) 0.057 (3) −0.023 (3) −0.024 (3) −0.001 (2)
C44' 0.048 (3) 0.036 (2) 0.013 (2) −0.028 (2) −0.006 (2) 0.003 (2)
C45 0.0167 (14) 0.0158 (14) 0.0241 (15) −0.0062 (11) −0.0045 (11) 0.0020 (11)
C46 0.0145 (14) 0.0185 (15) 0.0254 (16) −0.0037 (12) −0.0019 (11) −0.0012 (12)
Open in a new tab

Geometric parameters (Å, °)

Sn1—C15 2.163 (3) C20—H20 0.9500
Sn1—C1 2.168 (3) C21—H21 0.9500
Sn1—C8 2.168 (3) C23—H23 0.9500
Sn1—S1 2.4667 (14) C24—C25 1.508 (5)
Sn2—C31 2.151 (4) C24—H24A 0.9900
Sn2—C38 2.174 (5) C24—H24B 0.9900
Sn2—C38' 2.174 (8) C25—C26 1.3900
Sn2—C24' 2.174 (8) C25—C30 1.3900
Sn2—C24 2.174 (4) C26—C27 1.3900
Sn2—S2 2.4617 (13) C27—C28 1.3900
Cl1—C3 1.751 (3) C27—H27 0.9500
Cl2—C10 1.749 (3) C28—C29 1.3900
Cl3—C17 1.748 (3) C28—H28 0.9500
Cl4—C26 1.734 (3) C29—C30 1.3900
Cl4'—C26' 1.738 (9) C29—H29 0.9500
Cl5—C33 1.754 (4) C30—H30 0.9500
Cl6—C40 1.720 (3) C24'—C25' 1.501 (10)
Cl6'—C40' 1.732 (7) C24'—H24C 0.9900
Cl6'—Cl6'i 2.379 (9) C24'—H24D 0.9900
S1—C22 1.757 (3) C25'—C26' 1.3900
S2—C45 1.748 (3) C25'—C30' 1.3900
N1—C23 1.321 (4) C26'—C27' 1.3900
N1—N2 1.374 (3) C27'—C28' 1.3900
N2—C22 1.314 (4) C27'—H27' 0.9500
N2—H2 0.8600 C28'—C29' 1.3900
N3—C23 1.343 (4) C28'—H28' 0.9500
N3—C22 1.365 (4) C29'—C30' 1.3900
N4—C46 1.312 (4) C29'—H29' 0.9500
N4—N5 1.376 (4) C30'—H30' 0.9500
N5—C45 1.340 (4) C31—C32 1.489 (5)
N6—C45 1.329 (4) C31—H31A 0.9900
N6—C46 1.359 (4) C31—H31B 0.9900
N6—H6 0.8600 C32—C37 1.391 (5)
C1—C2 1.493 (4) C32—C33 1.390 (5)
C1—H1A 0.9900 C33—C34 1.379 (5)
C1—H1B 0.9900 C34—C35 1.387 (8)
C2—C3 1.397 (4) C34—H34 0.9500
C2—C7 1.400 (4) C35—C36 1.378 (9)
C3—C4 1.389 (4) C35—H35 0.9500
C4—C5 1.386 (5) C36—C37 1.374 (7)
C4—H4 0.9500 C36—H36 0.9500
C5—C6 1.381 (5) C37—H37 0.9500
C5—H5 0.9500 C38—C39 1.507 (7)
C6—C7 1.389 (5) C38—H38A 0.9900
C6—H6A 0.9500 C38—H38B 0.9900
C7—H7 0.9500 C39—C40 1.3900
C8—C9 1.499 (4) C39—C44 1.3900
C8—H8A 0.9900 C40—C41 1.3900
C8—H8B 0.9900 C41—C42 1.3900
C9—C10 1.394 (5) C41—H41 0.9500
C9—C14 1.402 (4) C42—C43 1.3900
C10—C11 1.382 (5) C42—H42 0.9500
C11—C12 1.392 (5) C43—C44 1.3900
C11—H11 0.9500 C43—H43 0.9500
C12—C13 1.383 (5) C44—H44 0.9500
C12—H12 0.9500 C38'—C39' 1.501 (10)
C13—C14 1.385 (5) C38'—H38C 0.9900
C13—H13 0.9500 C38'—H38D 0.9900
C14—H14 0.9500 C39'—C40' 1.3900
C15—C16 1.495 (4) C39'—C44' 1.3900
C15—H15A 0.9900 C40'—C41' 1.3900
C15—H15B 0.9900 C41'—C42' 1.3900
C16—C21 1.401 (4) C41'—H41' 0.9500
C16—C17 1.401 (4) C42'—C43' 1.3900
C17—C18 1.393 (5) C42'—H42' 0.9500
C18—C19 1.388 (5) C43'—C44' 1.3900
C18—H18 0.9500 C43'—H43' 0.9500
C19—C20 1.390 (5) C44'—H44' 0.9500
C19—H19 0.9500 C46—H46 0.9500
C20—C21 1.381 (5)
C15—Sn1—C1 110.37 (12) C26—C25—C24 118.5 (9)
C15—Sn1—C8 112.66 (12) C30—C25—C24 121.3 (9)
C1—Sn1—C8 109.34 (13) C27—C26—C25 120.0
C15—Sn1—S1 109.39 (9) C27—C26—Cl4 118.7 (4)
C1—Sn1—S1 108.10 (9) C25—C26—Cl4 121.3 (4)
C8—Sn1—S1 106.83 (9) C26—C27—C28 120.0
C31—Sn2—C38 113.9 (3) C26—C27—H27 120.0
C31—Sn2—C38' 115.4 (10) C28—C27—H27 120.0
C38—Sn2—C38' 7.2 (14) C27—C28—C29 120.0
C31—Sn2—C24' 117.7 (15) C27—C28—H28 120.0
C38—Sn2—C24' 106.8 (19) C29—C28—H28 120.0
C38'—Sn2—C24' 110.8 (19) C30—C29—C28 120.0
C31—Sn2—C24 115.2 (5) C30—C29—H29 120.0
C38—Sn2—C24 111.5 (6) C28—C29—H29 120.0
C38'—Sn2—C24 115.5 (7) C29—C30—C25 120.0
C24'—Sn2—C24 5(2) C29—C30—H30 120.0
C31—Sn2—S2 107.24 (12) C25—C30—H30 120.0
C38—Sn2—S2 108.5 (4) C25'—C24'—Sn2 109.5 (18)
C38'—Sn2—S2 101.5 (13) C25'—C24'—H24C 109.8
C24'—Sn2—S2 101.8 (7) Sn2—C24'—H24C 109.8
C24—Sn2—S2 99.2 (2) C25'—C24'—H24D 109.8
C40'—Cl6'—Cl6'i 155.1 (5) Sn2—C24'—H24D 109.8
C22—S1—Sn1 97.09 (10) H24C—C24'—H24D 108.2
C45—S2—Sn2 96.57 (11) C26'—C25'—C30' 120.0
C23—N1—N2 108.2 (2) C26'—C25'—C24' 126 (3)
C22—N2—N1 105.2 (2) C30'—C25'—C24' 114 (3)
C22—N2—H2 127.4 C25'—C26'—C27' 120.0
N1—N2—H2 127.4 C25'—C26'—Cl4' 120.7 (14)
C23—N3—C22 103.9 (2) C27'—C26'—Cl4' 119.3 (14)
C46—N4—N5 102.1 (2) C26'—C27'—C28' 120.0
C45—N5—N4 109.5 (2) C26'—C27'—H27' 120.0
C45—N6—C46 102.8 (3) C28'—C27'—H27' 120.0
C45—N6—H6 128.6 C29'—C28'—C27' 120.0
C46—N6—H6 128.6 C29'—C28'—H28' 120.0
C2—C1—Sn1 110.57 (19) C27'—C28'—H28' 120.0
C2—C1—H1A 109.5 C28'—C29'—C30' 120.0
Sn1—C1—H1A 109.5 C28'—C29'—H29' 120.0
C2—C1—H1B 109.5 C30'—C29'—H29' 120.0
Sn1—C1—H1B 109.5 C29'—C30'—C25' 120.0
H1A—C1—H1B 108.1 C29'—C30'—H30' 120.0
C3—C2—C7 116.3 (3) C25'—C30'—H30' 120.0
C3—C2—C1 122.7 (3) C32—C31—Sn2 111.0 (2)
C7—C2—C1 121.0 (3) C32—C31—H31A 109.4
C4—C3—C2 122.7 (3) Sn2—C31—H31A 109.4
C4—C3—Cl1 118.2 (3) C32—C31—H31B 109.4
C2—C3—Cl1 119.1 (2) Sn2—C31—H31B 109.4
C5—C4—C3 119.4 (3) H31A—C31—H31B 108.0
C5—C4—H4 120.3 C37—C32—C33 117.1 (4)
C3—C4—H4 120.3 C37—C32—C31 120.7 (4)
C6—C5—C4 119.5 (3) C33—C32—C31 122.1 (3)
C6—C5—H5 120.3 C34—C33—C32 123.0 (4)
C4—C5—H5 120.3 C34—C33—Cl5 118.6 (3)
C5—C6—C7 120.5 (3) C32—C33—Cl5 118.3 (3)
C5—C6—H6A 119.8 C33—C34—C35 118.0 (5)
C7—C6—H6A 119.8 C33—C34—H34 121.0
C6—C7—C2 121.6 (3) C35—C34—H34 121.0
C6—C7—H7 119.2 C36—C35—C34 120.4 (4)
C2—C7—H7 119.2 C36—C35—H35 119.8
C9—C8—Sn1 112.0 (2) C34—C35—H35 119.8
C9—C8—H8A 109.2 C35—C36—C37 120.5 (5)
Sn1—C8—H8A 109.2 C35—C36—H36 119.7
C9—C8—H8B 109.2 C37—C36—H36 119.7
Sn1—C8—H8B 109.2 C36—C37—C32 120.9 (5)
H8A—C8—H8B 107.9 C36—C37—H37 119.5
C10—C9—C14 116.0 (3) C32—C37—H37 119.5
C10—C9—C8 122.8 (3) C39—C38—Sn2 113.5 (4)
C14—C9—C8 121.2 (3) C39—C38—H38A 108.9
C11—C10—C9 123.0 (3) Sn2—C38—H38A 108.9
C11—C10—Cl2 118.2 (3) C39—C38—H38B 108.9
C9—C10—Cl2 118.8 (2) Sn2—C38—H38B 108.9
C10—C11—C12 119.2 (3) H38A—C38—H38B 107.7
C10—C11—H11 120.4 C40—C39—C44 120.0
C12—C11—H11 120.4 C40—C39—C38 121.0 (5)
C13—C12—C11 119.5 (3) C44—C39—C38 119.0 (5)
C13—C12—H12 120.2 C39—C40—C41 120.0
C11—C12—H12 120.2 C39—C40—Cl6 122.2 (2)
C12—C13—C14 120.1 (3) C41—C40—Cl6 117.8 (2)
C12—C13—H13 119.9 C42—C41—C40 120.0
C14—C13—H13 119.9 C42—C41—H41 120.0
C13—C14—C9 122.0 (3) C40—C41—H41 120.0
C13—C14—H14 119.0 C41—C42—C43 120.0
C9—C14—H14 119.0 C41—C42—H42 120.0
C16—C15—Sn1 109.2 (2) C43—C42—H42 120.0
C16—C15—H15A 109.8 C44—C43—C42 120.0
Sn1—C15—H15A 109.8 C44—C43—H43 120.0
C16—C15—H15B 109.8 C42—C43—H43 120.0
Sn1—C15—H15B 109.8 C43—C44—C39 120.0
H15A—C15—H15B 108.3 C43—C44—H44 120.0
C21—C16—C17 116.1 (3) C39—C44—H44 120.0
C21—C16—C15 120.7 (3) C39'—C38'—Sn2 107.3 (8)
C17—C16—C15 123.1 (3) C39'—C38'—H38C 110.3
C18—C17—C16 122.8 (3) Sn2—C38'—H38C 110.3
C18—C17—Cl3 118.0 (2) C39'—C38'—H38D 110.3
C16—C17—Cl3 119.2 (2) Sn2—C38'—H38D 110.3
C19—C18—C17 118.9 (3) H38C—C38'—H38D 108.5
C19—C18—H18 120.5 C40'—C39'—C44' 120.0
C17—C18—H18 120.5 C40'—C39'—C38' 118 (2)
C18—C19—C20 119.8 (3) C44'—C39'—C38' 122 (2)
C18—C19—H19 120.1 C39'—C40'—C41' 120.0
C20—C19—H19 120.1 C39'—C40'—Cl6' 120.7 (7)
C21—C20—C19 120.2 (3) C41'—C40'—Cl6' 119.2 (7)
C21—C20—H20 119.9 C42'—C41'—C40' 120.0
C19—C20—H20 119.9 C42'—C41'—H41' 120.0
C20—C21—C16 122.1 (3) C40'—C41'—H41' 120.0
C20—C21—H21 118.9 C41'—C42'—C43' 120.0
C16—C21—H21 118.9 C41'—C42'—H42' 120.0
N2—C22—N3 112.1 (2) C43'—C42'—H42' 120.0
N2—C22—S1 124.3 (2) C44'—C43'—C42' 120.0
N3—C22—S1 123.6 (2) C44'—C43'—H43' 120.0
N1—C23—N3 110.5 (3) C42'—C43'—H43' 120.0
N1—C23—H23 124.7 C43'—C44'—C39' 120.0
N3—C23—H23 124.7 C43'—C44'—H44' 120.0
C25—C24—Sn2 113.4 (6) C39'—C44'—H44' 120.0
C25—C24—H24A 108.9 N6—C45—N5 110.1 (3)
Sn2—C24—H24A 108.9 N6—C45—S2 126.8 (2)
C25—C24—H24B 108.9 N5—C45—S2 123.1 (2)
Sn2—C24—H24B 108.9 N4—C46—N6 115.4 (3)
H24A—C24—H24B 107.7 N4—C46—H46 122.3
C26—C25—C30 120.0 N6—C46—H46 122.3
C15—Sn1—S1—C22 117.76 (13) C24—C25—C30—C29 176.0 (10)
C1—Sn1—S1—C22 −2.45 (13) C31—Sn2—C24'—C25' −132 (3)
C8—Sn1—S1—C22 −120.02 (14) C38—Sn2—C24'—C25' 99 (4)
C31—Sn2—S2—C45 −58.74 (15) C38'—Sn2—C24'—C25' 92 (4)
C38—Sn2—S2—C45 64.7 (2) C24—Sn2—C24'—C25' −72 (9)
C38'—Sn2—S2—C45 62.7 (6) S2—Sn2—C24'—C25' −15 (4)
C24'—Sn2—S2—C45 177.1 (19) Sn2—C24'—C25'—C26' 84 (4)
C24—Sn2—S2—C45 −178.8 (6) Sn2—C24'—C25'—C30' −97 (3)
C23—N1—N2—C22 0.7 (3) C30'—C25'—C26'—C27' 0.0
C46—N4—N5—C45 −0.5 (3) C24'—C25'—C26'—C27' 178 (3)
C15—Sn1—C1—C2 98.9 (2) C30'—C25'—C26'—Cl4' −177 (2)
C8—Sn1—C1—C2 −25.5 (2) C24'—C25'—C26'—Cl4' 1(2)
S1—Sn1—C1—C2 −141.5 (2) C25'—C26'—C27'—C28' 0.0
Sn1—C1—C2—C3 89.6 (3) Cl4'—C26'—C27'—C28' 177 (2)
Sn1—C1—C2—C7 −89.7 (3) C26'—C27'—C28'—C29' 0.0
C7—C2—C3—C4 −1.2 (5) C27'—C28'—C29'—C30' 0.0
C1—C2—C3—C4 179.5 (3) C28'—C29'—C30'—C25' 0.0
C7—C2—C3—Cl1 178.8 (2) C26'—C25'—C30'—C29' 0.0
C1—C2—C3—Cl1 −0.5 (4) C24'—C25'—C30'—C29' −178 (3)
C2—C3—C4—C5 1.8 (5) C38—Sn2—C31—C32 158.0 (4)
Cl1—C3—C4—C5 −178.2 (3) C38'—Sn2—C31—C32 165.8 (11)
C3—C4—C5—C6 −0.8 (5) C24'—Sn2—C31—C32 31.9 (15)
C4—C5—C6—C7 −0.7 (5) C24—Sn2—C31—C32 27.3 (5)
C5—C6—C7—C2 1.2 (5) S2—Sn2—C31—C32 −82.0 (3)
C3—C2—C7—C6 −0.2 (4) Sn2—C31—C32—C37 99.2 (4)
C1—C2—C7—C6 179.1 (3) Sn2—C31—C32—C33 −77.8 (4)
C15—Sn1—C8—C9 −28.2 (3) C37—C32—C33—C34 0.5 (6)
C1—Sn1—C8—C9 94.9 (2) C31—C32—C33—C34 177.6 (4)
S1—Sn1—C8—C9 −148.4 (2) C37—C32—C33—Cl5 −178.2 (3)
Sn1—C8—C9—C10 85.0 (3) C31—C32—C33—Cl5 −1.1 (5)
Sn1—C8—C9—C14 −94.2 (3) C32—C33—C34—C35 −0.3 (6)
C14—C9—C10—C11 −2.3 (5) Cl5—C33—C34—C35 178.4 (3)
C8—C9—C10—C11 178.4 (3) C33—C34—C35—C36 −0.6 (7)
C14—C9—C10—Cl2 178.1 (2) C34—C35—C36—C37 1.4 (8)
C8—C9—C10—Cl2 −1.1 (4) C35—C36—C37—C32 −1.2 (7)
C9—C10—C11—C12 2.2 (5) C33—C32—C37—C36 0.3 (6)
Cl2—C10—C11—C12 −178.2 (2) C31—C32—C37—C36 −176.9 (4)
C10—C11—C12—C13 −0.3 (5) C31—Sn2—C38—C39 −150.9 (7)
C11—C12—C13—C14 −1.4 (5) C38'—Sn2—C38—C39 106 (9)
C12—C13—C14—C9 1.3 (5) C24'—Sn2—C38—C39 −19.3 (10)
C10—C9—C14—C13 0.6 (4) C24—Sn2—C38—C39 −18.4 (9)
C8—C9—C14—C13 179.8 (3) S2—Sn2—C38—C39 89.8 (7)
C1—Sn1—C15—C16 −27.4 (2) Sn2—C38—C39—C40 78.8 (8)
C8—Sn1—C15—C16 95.2 (2) Sn2—C38—C39—C44 −102.0 (6)
S1—Sn1—C15—C16 −146.19 (18) C44—C39—C40—C41 0.0
Sn1—C15—C16—C21 −91.4 (3) C38—C39—C40—C41 179.2 (5)
Sn1—C15—C16—C17 85.8 (3) C44—C39—C40—Cl6 −178.9 (3)
C21—C16—C17—C18 −1.6 (5) C38—C39—C40—Cl6 0.3 (5)
C15—C16—C17—C18 −178.9 (3) C39—C40—C41—C42 0.0
C21—C16—C17—Cl3 178.5 (2) Cl6—C40—C41—C42 178.9 (3)
C15—C16—C17—Cl3 1.1 (4) C40—C41—C42—C43 0.0
C16—C17—C18—C19 0.8 (5) C41—C42—C43—C44 0.0
Cl3—C17—C18—C19 −179.2 (3) C42—C43—C44—C39 0.0
C17—C18—C19—C20 0.1 (5) C40—C39—C44—C43 0.0
C18—C19—C20—C21 −0.3 (5) C38—C39—C44—C43 −179.2 (5)
C19—C20—C21—C16 −0.5 (5) C31—Sn2—C38'—C39' −132 (2)
C17—C16—C21—C20 1.4 (5) C38—Sn2—C38'—C39' −52 (6)
C15—C16—C21—C20 178.8 (3) C24'—Sn2—C38'—C39' 5(3)
N1—N2—C22—N3 −1.1 (3) C24—Sn2—C38'—C39' 6(3)
N1—N2—C22—S1 179.1 (2) S2—Sn2—C38'—C39' 112 (2)
C23—N3—C22—N2 1.1 (3) Sn2—C38'—C39'—C40' 70 (2)
C23—N3—C22—S1 −179.1 (2) Sn2—C38'—C39'—C44' −107.1 (18)
Sn1—S1—C22—N2 −85.9 (3) C44'—C39'—C40'—C41' 0.0
Sn1—S1—C22—N3 94.3 (2) C38'—C39'—C40'—C41' −177.1 (13)
N2—N1—C23—N3 0.0 (3) C44'—C39'—C40'—Cl6' 178.4 (9)
C22—N3—C23—N1 −0.7 (3) C38'—C39'—C40'—Cl6' 1.3 (12)
C31—Sn2—C24—C25 −132.8 (10) Cl6'i—Cl6'—C40'—C39' 92.8 (12)
C38—Sn2—C24—C25 95.4 (12) Cl6'i—Cl6'—C40'—C41' −88.8 (13)
C38'—Sn2—C24—C25 88.8 (19) C39'—C40'—C41'—C42' 0.0
C24'—Sn2—C24—C25 105 (13) Cl6'—C40'—C41'—C42' −178.4 (9)
S2—Sn2—C24—C25 −18.7 (13) C40'—C41'—C42'—C43' 0.0
Sn2—C24—C25—C26 89.1 (12) C41'—C42'—C43'—C44' 0.0
Sn2—C24—C25—C30 −87.0 (12) C42'—C43'—C44'—C39' 0.0
C30—C25—C26—C27 0.0 C40'—C39'—C44'—C43' 0.0
C24—C25—C26—C27 −176.1 (10) C38'—C39'—C44'—C43' 177.0 (13)
C30—C25—C26—Cl4 179.5 (8) C46—N6—C45—N5 −0.8 (3)
C24—C25—C26—Cl4 3.3 (7) C46—N6—C45—S2 178.7 (2)
C25—C26—C27—C28 0.0 N4—N5—C45—N6 0.9 (3)
Cl4—C26—C27—C28 −179.5 (8) N4—N5—C45—S2 −178.7 (2)
C26—C27—C28—C29 0.0 Sn2—S2—C45—N6 −0.8 (3)
C27—C28—C29—C30 0.0 Sn2—S2—C45—N5 178.7 (2)
C28—C29—C30—C25 0.0 N5—N4—C46—N6 0.0 (3)
C26—C25—C30—C29 0.0 C45—N6—C46—N4 0.5 (4)
Open in a new tab

Symmetry codes: (i) −x+2, −y+2, −z+2.

Hydrogen-bond geometry (Å, °)

D—H···A D—H H···A D···A D—H···A
N2—H2···N5 0.86 2.07 2.916 (4) 170
Open in a new tab

Footnotes

Supplementary data and figures for this paper are available from the IUCr electronic archives (Reference: XU5006).

References

  1. Aziz-ur-Rehman, Ali, S., Shahzadi, S. & Helliwell, M. (2006). Acta Cryst. E62, m2328–m2329.
  2. Barbour, L. J. (2001). J. Supramol. Chem.1, 189–191.
  3. Bruker (2009). APEX2 and SAINT Bruker AXS Inc., Madison, Wisconsin, USA.
  4. Ma, C.-L., Li, J.-K., Zhang, R.-F. & Qiu, L.-L. (2007). J. Mol. Struct.830, 1–7.
  5. Sheldrick, G. M. (1996). SADABS University of Göttingen, Germany.
  6. Sheldrick, G. M. (2008). Acta Cryst. A64, 112–122. [DOI] [PubMed]
  7. Westrip, S. P. (2010). J. Appl. Cryst.43, 920–925.

Associated Data

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

Supplementary Materials

Crystal structure: contains datablocks global, I. DOI: 10.1107/S160053681003076X/xu5006sup1.cif

e-66-m1064-sup1.cif (42.3KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S160053681003076X/xu5006Isup2.hkl

e-66-m1064-Isup2.hkl (527.1KB, 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

RESOURCES