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Acta Crystallographica Section E: Structure Reports Online logoLink to Acta Crystallographica Section E: Structure Reports Online
. 2010 Jun 18;66(Pt 7):o1715. doi: 10.1107/S1600536810022920

4-Ethyl-1-[4-(methyl­sulfan­yl)benzyl­idene]thio­semicarbazide

Yu-Feng Li a, Fang-Fang Jian b,*
PMCID: PMC3006876  PMID: 21587932

Abstract

There are four independent mol­ecules in the asymmetric unit of the title compound, C11H15N3S2, with different conformations: the dihedral angles between the benzene rings and thio­urea units are 16.85 (9), 0.56 (10), 8.05 (12) and 4.56 (8)°. Each mol­ecule contains an intra­molecular N—H⋯N hydrogen bond, generating an S(5) ring. The crystal structure is stabilized by inter­molecular N—H⋯S hydrogen bonds.

Related literature

For a related structure and background references to thio­semicarbazones, see: Li & Jian (2010).graphic file with name e-66-o1715-scheme1.jpg

Experimental

Crystal data

  • C11H15N3S2

  • M r = 253.38

  • Triclinic, Inline graphic

  • a = 10.496 (2) Å

  • b = 15.737 (3) Å

  • c = 17.542 (4) Å

  • α = 111.07 (3)°

  • β = 91.62 (3)°

  • γ = 100.43 (3)°

  • V = 2645.4 (9) Å3

  • Z = 8

  • Mo Kα radiation

  • μ = 0.38 mm−1

  • T = 293 K

  • 0.22 × 0.20 × 0.18 mm

Data collection

  • Bruker SMART CCD diffractometer

  • 26033 measured reflections

  • 12032 independent reflections

  • 8042 reflections with I > 2σ(I)

  • R int = 0.042

Refinement

  • R[F 2 > 2σ(F 2)] = 0.053

  • wR(F 2) = 0.201

  • S = 1.31

  • 12032 reflections

  • 577 parameters

  • H-atom parameters constrained

  • Δρmax = 0.68 e Å−3

  • Δρmin = −0.44 e Å−3

Data collection: SMART (Bruker, 1997); cell refinement: SAINT (Bruker, 1997); data reduction: SAINT; program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: SHELXTL (Sheldrick, 2008); software used to prepare material for publication: SHELXTL.

Supplementary Material

Crystal structure: contains datablocks global, I. DOI: 10.1107/S1600536810022920/hb5494sup1.cif

e-66-o1715-sup1.cif (31.5KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S1600536810022920/hb5494Isup2.hkl

e-66-o1715-Isup2.hkl (588.2KB, 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
N1A—H1AA⋯N2A 0.86 2.20 2.602 (3) 108
N1B—H1BA⋯N3B 0.86 2.17 2.585 (3) 109
N1C—H1CA⋯N3C 0.86 2.23 2.624 (3) 108
N3D—H3DA⋯N1D 0.86 2.22 2.610 (3) 107
N3A—H3AA⋯S1Di 0.86 2.59 3.398 (2) 156
N2D—H2DA⋯S2Aii 0.86 2.57 3.402 (2) 163
N1A—H1AA⋯S1B 0.86 2.81 3.4798 (19) 136
N2B—H2BA⋯S1C 0.86 2.72 3.579 (2) 174
N2C—H2CA⋯S1B 0.86 2.64 3.487 (3) 168
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Symmetry codes: (i) Inline graphic; (ii) Inline graphic.

supplementary crystallographic information

Comment

As part of our ongoing studies of thiosemicarbazone compounds (Li & Jian, 2010), we synthesized the title compound (I), and describe its structure here. In the four independent molecules, the dihedral angle between the benzene ring and the thiourea unit is [16.85 (9)°], [0.56 (10)°], [8.05 (12)°], [4.56 (8)°] respectively.

Experimental

A mixture of 4-ethylthiosemicarbazide (0.1 mol), and 4-(methylthio)benzaldehyde (0.1 mol) was stirred in refluxing ethanol (20 ml) for 2 h to afford the title compound (0.086 mol, yield 86%). Colourless blocks of (I) were obtained by recrystallization from ethanol at room temperature.

Refinement

H atoms were fixed geometrically and allowed to ride on their attached atoms, with C—H distances=0.97 Å, and with Uiso=1.2–1.5Ueq.

Figures

Fig. 1.

Fig. 1.

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The structure of (I) showing 30% probability displacement ellipsoids.

Crystal data

C11H15N3S2 Z = 8
Mr = 253.38 F(000) = 1072
Triclinic, P1 Dx = 1.272 Mg m3
Hall symbol: -P 1 Mo Kα radiation, λ = 0.71073 Å
a = 10.496 (2) Å Cell parameters from 8042 reflections
b = 15.737 (3) Å θ = 3.0–27.5°
c = 17.542 (4) Å µ = 0.38 mm1
α = 111.07 (3)° T = 293 K
β = 91.62 (3)° Block, colorless
γ = 100.43 (3)° 0.22 × 0.20 × 0.18 mm
V = 2645.4 (9) Å3
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Data collection

Bruker SMART CCD diffractometer 8042 reflections with I > 2σ(I)
Radiation source: fine-focus sealed tube Rint = 0.042
graphite θmax = 27.5°, θmin = 3.0°
phi and ω scans h = −13→13
26033 measured reflections k = −20→20
12032 independent reflections l = −22→22
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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)] = 0.053 Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.201 H-atom parameters constrained
S = 1.31 w = 1/[σ2(Fo2) + (0.1P)2] where P = (Fo2 + 2Fc2)/3
12032 reflections (Δ/σ)max = 0.001
577 parameters Δρmax = 0.68 e Å3
0 restraints Δρmin = −0.44 e Å3
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Special details

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.
Refinement. Refinement of F2 against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F2, conventional R-factors R are based on F, with F set to zero for negative F2. The threshold expression of F2 > σ(F2) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F2 are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger.
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Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
S1D 0.70888 (7) 0.63167 (4) 0.27855 (3) 0.06536 (19)
S2A 0.77477 (8) −0.09229 (4) 0.25247 (3) 0.0713 (2)
S1B 0.81356 (8) −0.20823 (4) −0.11837 (3) 0.0747 (2)
S2D 0.91253 (8) 1.22890 (5) 0.82918 (4) 0.0787 (2)
S1C 0.59612 (10) −0.26828 (5) −0.35997 (4) 0.0909 (3)
S2C 0.57360 (9) 0.35118 (5) 0.15668 (5) 0.0892 (3)
S1A 0.63732 (9) −0.69992 (6) −0.29039 (5) 0.0952 (3)
S2B 1.00646 (10) −0.79759 (6) −0.60067 (5) 0.0999 (3)
N3A 0.72112 (19) −0.26196 (13) 0.14045 (10) 0.0570 (5)
H3AA 0.6975 −0.2804 0.1795 0.068*
N3D 0.6760 (2) 0.68551 (12) 0.43757 (10) 0.0601 (5)
H3DA 0.6771 0.7297 0.4842 0.072*
N2A 0.71480 (17) −0.32505 (12) 0.06176 (10) 0.0522 (4)
N2D 0.75067 (19) 0.80099 (12) 0.39072 (10) 0.0562 (4)
H2DA 0.7700 0.8205 0.3517 0.067*
N1D 0.76168 (17) 0.86248 (12) 0.46999 (10) 0.0528 (4)
N1A 0.7964 (2) −0.14877 (13) 0.09172 (10) 0.0604 (5)
H1AA 0.7847 −0.1934 0.0445 0.072*
C3D 0.7090 (2) 0.70904 (15) 0.37417 (11) 0.0507 (5)
C3A 0.7648 (2) −0.17061 (15) 0.15602 (12) 0.0541 (5)
N3B 0.8723 (2) −0.42118 (14) −0.30377 (11) 0.0618 (5)
C5A 0.66625 (19) −0.48223 (14) −0.03193 (12) 0.0493 (5)
C4A 0.6790 (2) −0.41118 (15) 0.05027 (13) 0.0512 (5)
H4AA 0.6608 −0.4286 0.0948 0.061*
C5D 0.8371 (2) 1.01651 (15) 0.56714 (12) 0.0517 (5)
C4D 0.8144 (2) 0.94679 (15) 0.48379 (12) 0.0534 (5)
H4DA 0.8388 0.9642 0.4401 0.064*
N3C 0.5771 (2) −0.04440 (14) −0.17236 (11) 0.0680 (5)
N2B 0.8282 (2) −0.34282 (14) −0.25800 (10) 0.0663 (5)
H2BA 0.7763 −0.3203 −0.2807 0.080*
N1B 0.9511 (2) −0.34109 (14) −0.14897 (11) 0.0666 (5)
H1BA 0.9764 −0.3872 −0.1845 0.080*
C3B 0.8681 (2) −0.30171 (16) −0.17630 (13) 0.0608 (6)
C6A 0.6774 (2) −0.45969 (16) −0.10174 (13) 0.0610 (6)
H6AA 0.6934 −0.3976 −0.0963 0.073*
C8D 0.8865 (2) 1.15085 (16) 0.72642 (13) 0.0573 (5)
C10D 0.8050 (2) 0.99256 (16) 0.63471 (13) 0.0583 (5)
H10A 0.7679 0.9313 0.6269 0.070*
N2C 0.6029 (3) −0.12828 (16) −0.22144 (11) 0.0800 (7)
H2CA 0.6489 −0.1564 −0.2009 0.096*
C8B 0.9502 (2) −0.69882 (16) −0.54091 (14) 0.0610 (5)
C6D 0.8938 (2) 1.10765 (16) 0.58141 (14) 0.0598 (5)
H6DA 0.9158 1.1247 0.5372 0.072*
C8C 0.5907 (2) 0.24294 (16) 0.08527 (14) 0.0609 (5)
C8A 0.6428 (2) −0.62037 (17) −0.18858 (14) 0.0635 (6)
C5B 0.8749 (2) −0.53968 (16) −0.43370 (13) 0.0573 (5)
C9A 0.6289 (2) −0.64442 (17) −0.12059 (16) 0.0666 (6)
H9AA 0.6117 −0.7068 −0.1268 0.080*
C7B 0.8681 (3) −0.65617 (18) −0.56913 (13) 0.0729 (7)
H7BA 0.8373 −0.6800 −0.6245 0.087*
C10A 0.6406 (2) −0.57573 (16) −0.04307 (14) 0.0591 (5)
H10B 0.6311 −0.5927 0.0024 0.071*
C9D 0.8283 (2) 1.05956 (17) 0.71286 (13) 0.0632 (6)
H9DA 0.8046 1.0433 0.7572 0.076*
C7A 0.6651 (3) −0.52784 (19) −0.17804 (14) 0.0705 (7)
H7AA 0.6721 −0.5113 −0.2238 0.085*
C4B 0.8349 (3) −0.45683 (17) −0.37994 (13) 0.0646 (6)
H4BA 0.7803 −0.4292 −0.4019 0.078*
C10B 0.9567 (2) −0.58410 (18) −0.40533 (13) 0.0650 (6)
H10C 0.9866 −0.5609 −0.3499 0.078*
C2D 0.6381 (3) 0.59073 (18) 0.43388 (14) 0.0745 (7)
H2DB 0.6588 0.5894 0.4876 0.089*
H2DC 0.6886 0.5522 0.3957 0.089*
C3C 0.5568 (3) −0.16705 (18) −0.30147 (14) 0.0713 (7)
C6C 0.5343 (3) 0.13004 (18) −0.05242 (15) 0.0656 (6)
H6CA 0.4886 0.1116 −0.1038 0.079*
C9B 0.9939 (3) −0.66138 (19) −0.45749 (15) 0.0693 (6)
H9BA 1.0496 −0.6896 −0.4370 0.083*
C7D 0.9188 (2) 1.17422 (16) 0.66004 (14) 0.0628 (6)
H7DA 0.9577 1.2352 0.6681 0.075*
C4C 0.6275 (3) −0.0129 (2) −0.09849 (15) 0.0810 (8)
H4CA 0.6772 −0.0480 −0.0823 0.097*
C5C 0.6116 (3) 0.07495 (17) −0.03801 (13) 0.0659 (6)
C2A 0.8492 (3) −0.05562 (18) 0.09475 (15) 0.0809 (9)
H2AB 0.8181 −0.0110 0.1408 0.097*
H2AC 0.8168 −0.0496 0.0450 0.097*
N1C 0.4853 (3) −0.12191 (17) −0.32778 (13) 0.0853 (7)
H1CA 0.4686 −0.0718 −0.2926 0.102*
C6B 0.8302 (3) −0.57779 (18) −0.51630 (14) 0.0746 (7)
H6BA 0.7735 −0.5502 −0.5367 0.089*
C7C 0.5234 (3) 0.21250 (18) 0.00832 (16) 0.0709 (7)
H7CA 0.4696 0.2484 −0.0027 0.085*
C10C 0.6784 (4) 0.1063 (2) 0.03940 (17) 0.1071 (13)
H10D 0.7324 0.0706 0.0507 0.129*
C9C 0.6676 (4) 0.1891 (2) 0.10045 (16) 0.0900 (10)
H9CA 0.7132 0.2078 0.1520 0.108*
C2B 1.0029 (3) −0.3124 (2) −0.06345 (15) 0.0783 (7)
H2BB 0.9320 −0.3077 −0.0288 0.094*
H2BC 1.0604 −0.2517 −0.0462 0.094*
C11D 0.9757 (3) 1.3390 (2) 0.82323 (17) 0.0862 (9)
H11A 0.9925 1.3859 0.8775 0.129*
H11B 0.9135 1.3537 0.7913 0.129*
H11C 1.0553 1.3367 0.7976 0.129*
C1B 1.0759 (4) −0.3812 (3) −0.05415 (18) 0.1076 (12)
H1BB 1.1090 −0.3622 0.0023 0.161*
H1BC 1.1470 −0.3848 −0.0876 0.161*
H1BD 1.0187 −0.4412 −0.0711 0.161*
C11A 0.5706 (3) −0.8097 (2) −0.2859 (2) 0.1097 (12)
H11D 0.5645 −0.8573 −0.3395 0.165*
H11E 0.4854 −0.8092 −0.2675 0.165*
H11F 0.6258 −0.8221 −0.2482 0.165*
C1A 0.9928 (4) −0.0328 (2) 0.1032 (2) 0.1091 (12)
H1AB 1.0221 0.0298 0.1060 0.164*
H1AC 1.0243 −0.0750 0.0566 0.164*
H1AD 1.0256 −0.0384 0.1525 0.164*
C11C 0.6779 (4) 0.3679 (2) 0.24419 (17) 0.0959 (10)
H11G 0.6743 0.4263 0.2867 0.144*
H11H 0.7655 0.3683 0.2299 0.144*
H11I 0.6503 0.3183 0.2635 0.144*
C1D 0.4976 (4) 0.5507 (2) 0.4078 (2) 0.1096 (12)
H1DB 0.4785 0.4877 0.4054 0.164*
H1DC 0.4764 0.5516 0.3546 0.164*
H1DD 0.4470 0.5869 0.4466 0.164*
C11B 0.9299 (4) −0.8277 (2) −0.70075 (18) 0.1145 (13)
H11J 0.9563 −0.8820 −0.7376 0.172*
H11K 0.9548 −0.7770 −0.7190 0.172*
H11L 0.8371 −0.8407 −0.6999 0.172*
C2C 0.4309 (5) −0.1508 (3) −0.4138 (2) 0.1359 (18)
H2CB 0.4887 −0.1851 −0.4491 0.163*
H2CC 0.3478 −0.1933 −0.4218 0.163*
C1C 0.4128 (6) −0.0818 (4) −0.4382 (3) 0.172 (2)
H1CB 0.3779 −0.1075 −0.4948 0.258*
H1CC 0.4945 −0.0398 −0.4319 0.258*
H1CD 0.3529 −0.0487 −0.4053 0.258*
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Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
S1D 0.0967 (5) 0.0526 (3) 0.0385 (3) 0.0130 (3) 0.0152 (3) 0.0077 (2)
S2A 0.1070 (5) 0.0539 (3) 0.0419 (3) 0.0123 (3) 0.0111 (3) 0.0065 (2)
S1B 0.1203 (6) 0.0505 (3) 0.0483 (3) 0.0269 (3) 0.0128 (3) 0.0075 (2)
S2D 0.0965 (5) 0.0675 (4) 0.0514 (3) 0.0182 (4) 0.0026 (3) −0.0028 (3)
S1C 0.1435 (7) 0.0710 (5) 0.0468 (3) 0.0242 (5) 0.0222 (4) 0.0065 (3)
S2C 0.1155 (6) 0.0633 (4) 0.0799 (4) 0.0435 (4) 0.0096 (4) 0.0041 (3)
S1A 0.1066 (6) 0.0885 (6) 0.0643 (4) 0.0383 (5) 0.0037 (4) −0.0109 (4)
S2B 0.1272 (7) 0.0838 (5) 0.0892 (5) 0.0574 (5) 0.0367 (5) 0.0136 (4)
N3A 0.0729 (11) 0.0503 (10) 0.0397 (8) 0.0053 (9) 0.0075 (8) 0.0106 (7)
N3D 0.0909 (13) 0.0461 (10) 0.0395 (8) 0.0157 (9) 0.0130 (9) 0.0101 (7)
N2A 0.0592 (10) 0.0494 (10) 0.0410 (8) 0.0119 (8) 0.0037 (7) 0.0082 (7)
N2D 0.0743 (11) 0.0474 (10) 0.0395 (8) 0.0061 (8) 0.0095 (8) 0.0102 (7)
N1D 0.0615 (10) 0.0479 (10) 0.0411 (8) 0.0110 (8) 0.0028 (8) 0.0075 (7)
N1A 0.0905 (13) 0.0443 (10) 0.0422 (9) 0.0149 (9) 0.0042 (9) 0.0108 (7)
C3D 0.0574 (11) 0.0493 (11) 0.0402 (9) 0.0110 (9) 0.0043 (9) 0.0105 (8)
C3A 0.0659 (12) 0.0485 (11) 0.0436 (10) 0.0150 (10) 0.0040 (9) 0.0104 (9)
N3B 0.0800 (12) 0.0551 (11) 0.0453 (9) 0.0186 (9) 0.0140 (9) 0.0100 (8)
C5A 0.0441 (9) 0.0489 (11) 0.0492 (10) 0.0115 (8) 0.0030 (8) 0.0106 (9)
C4A 0.0556 (11) 0.0486 (12) 0.0478 (10) 0.0104 (9) 0.0065 (9) 0.0161 (9)
C5D 0.0540 (11) 0.0493 (11) 0.0469 (10) 0.0130 (9) 0.0074 (9) 0.0106 (9)
C4D 0.0621 (12) 0.0494 (12) 0.0451 (10) 0.0117 (10) 0.0070 (9) 0.0130 (9)
N3C 0.0942 (14) 0.0589 (12) 0.0491 (10) 0.0246 (11) 0.0133 (10) 0.0130 (9)
N2B 0.0976 (14) 0.0554 (11) 0.0430 (9) 0.0286 (10) 0.0108 (10) 0.0082 (8)
N1B 0.0814 (13) 0.0629 (12) 0.0460 (9) 0.0213 (10) 0.0070 (9) 0.0057 (8)
C3B 0.0774 (14) 0.0512 (12) 0.0452 (11) 0.0066 (11) 0.0152 (10) 0.0101 (9)
C6A 0.0747 (14) 0.0515 (13) 0.0503 (11) 0.0073 (11) 0.0003 (11) 0.0145 (10)
C8D 0.0573 (11) 0.0520 (12) 0.0506 (11) 0.0149 (10) 0.0039 (10) 0.0034 (9)
C10D 0.0697 (13) 0.0490 (12) 0.0479 (11) 0.0070 (10) 0.0019 (10) 0.0110 (9)
N2C 0.1209 (18) 0.0689 (14) 0.0436 (10) 0.0397 (13) 0.0111 (11) 0.0033 (9)
C8B 0.0715 (13) 0.0535 (13) 0.0585 (12) 0.0197 (11) 0.0223 (11) 0.0169 (10)
C6D 0.0714 (14) 0.0493 (12) 0.0526 (11) 0.0095 (10) 0.0107 (10) 0.0129 (9)
C8C 0.0732 (14) 0.0511 (12) 0.0585 (12) 0.0226 (11) 0.0109 (11) 0.0154 (10)
C8A 0.0585 (12) 0.0613 (14) 0.0571 (12) 0.0210 (11) 0.0045 (10) 0.0019 (11)
C5B 0.0706 (13) 0.0556 (13) 0.0444 (10) 0.0187 (11) 0.0105 (10) 0.0139 (9)
C9A 0.0701 (14) 0.0455 (12) 0.0763 (15) 0.0192 (11) 0.0077 (12) 0.0097 (11)
C7B 0.106 (2) 0.0682 (16) 0.0422 (11) 0.0349 (15) 0.0066 (12) 0.0091 (11)
C10A 0.0672 (13) 0.0519 (12) 0.0585 (12) 0.0164 (10) 0.0078 (11) 0.0186 (10)
C9D 0.0747 (14) 0.0642 (14) 0.0463 (11) 0.0131 (12) 0.0064 (11) 0.0159 (10)
C7A 0.0849 (16) 0.0728 (17) 0.0473 (11) 0.0153 (13) 0.0049 (12) 0.0150 (11)
C4B 0.0866 (16) 0.0567 (13) 0.0472 (11) 0.0237 (12) 0.0081 (11) 0.0107 (10)
C10B 0.0782 (15) 0.0688 (15) 0.0458 (11) 0.0223 (12) 0.0016 (11) 0.0156 (10)
C2D 0.121 (2) 0.0592 (14) 0.0466 (11) 0.0271 (15) 0.0150 (13) 0.0188 (10)
C3C 0.0975 (18) 0.0653 (15) 0.0440 (11) 0.0066 (14) 0.0162 (12) 0.0161 (11)
C6C 0.0747 (14) 0.0615 (14) 0.0585 (13) 0.0219 (12) −0.0009 (11) 0.0165 (11)
C9B 0.0745 (15) 0.0723 (16) 0.0648 (14) 0.0324 (13) 0.0087 (12) 0.0214 (12)
C7D 0.0689 (14) 0.0452 (12) 0.0634 (13) 0.0093 (10) 0.0091 (11) 0.0082 (10)
C4C 0.120 (2) 0.0703 (17) 0.0514 (13) 0.0495 (16) −0.0003 (14) 0.0073 (11)
C5C 0.0911 (17) 0.0586 (14) 0.0498 (11) 0.0332 (13) 0.0062 (12) 0.0137 (10)
C2A 0.150 (3) 0.0504 (14) 0.0482 (12) 0.0322 (16) 0.0097 (15) 0.0191 (10)
N1C 0.1164 (19) 0.0747 (15) 0.0538 (11) 0.0089 (14) −0.0073 (12) 0.0169 (11)
C6B 0.110 (2) 0.0676 (16) 0.0466 (11) 0.0409 (15) 0.0020 (13) 0.0111 (11)
C7C 0.0818 (16) 0.0571 (14) 0.0741 (15) 0.0285 (12) 0.0001 (13) 0.0183 (12)
C10C 0.174 (3) 0.086 (2) 0.0610 (15) 0.083 (2) −0.0183 (19) 0.0023 (14)
C9C 0.139 (3) 0.0724 (17) 0.0543 (13) 0.0541 (18) −0.0147 (16) 0.0044 (12)
C2B 0.0872 (17) 0.0840 (19) 0.0493 (12) 0.0206 (15) −0.0004 (12) 0.0069 (12)
C11D 0.0785 (17) 0.0711 (17) 0.0765 (17) 0.0053 (14) 0.0112 (14) −0.0065 (13)
C1B 0.125 (3) 0.136 (3) 0.0639 (16) 0.062 (2) 0.0024 (18) 0.0238 (18)
C11A 0.0859 (19) 0.083 (2) 0.114 (3) 0.0141 (17) 0.0107 (19) −0.0176 (18)
C1A 0.133 (3) 0.067 (2) 0.118 (3) −0.0126 (19) 0.008 (2) 0.0404 (18)
C11C 0.133 (3) 0.0739 (19) 0.0641 (16) 0.0293 (18) 0.0092 (17) 0.0015 (13)
C1D 0.124 (3) 0.082 (2) 0.112 (3) −0.014 (2) 0.011 (2) 0.040 (2)
C11B 0.177 (4) 0.074 (2) 0.0721 (18) 0.026 (2) 0.041 (2) 0.0006 (15)
C2C 0.217 (5) 0.098 (3) 0.074 (2) 0.007 (3) −0.044 (3) 0.0247 (19)
C1C 0.240 (6) 0.159 (5) 0.125 (3) 0.067 (4) −0.062 (4) 0.054 (3)
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Geometric parameters (Å, °)

S1D—C3D 1.681 (2) C9A—C10A 1.385 (3)
S2A—C3A 1.684 (2) C9A—H9AA 0.9300
S1B—C3B 1.670 (3) C7B—C6B 1.384 (3)
S2D—C8D 1.758 (2) C7B—H7BA 0.9300
S2D—C11D 1.780 (3) C10A—H10B 0.9300
S1C—C3C 1.688 (3) C9D—H9DA 0.9300
S2C—C8C 1.758 (2) C7A—H7AA 0.9300
S2C—C11C 1.770 (3) C4B—H4BA 0.9300
S1A—C8A 1.767 (2) C10B—C9B 1.364 (3)
S1A—C11A 1.773 (4) C10B—H10C 0.9300
S2B—C8B 1.749 (2) C2D—C1D 1.483 (5)
S2B—C11B 1.771 (4) C2D—H2DB 0.9700
N3A—C3A 1.350 (3) C2D—H2DC 0.9700
N3A—N2A 1.372 (2) C3C—N1C 1.300 (4)
N3A—H3AA 0.8600 C6C—C5C 1.369 (3)
N3D—C3D 1.329 (3) C6C—C7C 1.378 (3)
N3D—C2D 1.450 (3) C6C—H6CA 0.9300
N3D—H3DA 0.8600 C9B—H9BA 0.9300
N2A—C4A 1.278 (3) C7D—H7DA 0.9300
N2D—C3D 1.353 (3) C4C—C5C 1.451 (3)
N2D—N1D 1.366 (2) C4C—H4CA 0.9300
N2D—H2DA 0.8600 C5C—C10C 1.385 (4)
N1D—C4D 1.273 (3) C2A—C1A 1.476 (5)
N1A—C3A 1.326 (3) C2A—H2AB 0.9700
N1A—C2A 1.451 (3) C2A—H2AC 0.9700
N1A—H1AA 0.8600 N1C—C2C 1.474 (4)
N3B—C4B 1.267 (3) N1C—H1CA 0.8600
N3B—N2B 1.377 (3) C6B—H6BA 0.9300
C5A—C10A 1.386 (3) C7C—H7CA 0.9300
C5A—C6A 1.394 (3) C10C—C9C 1.383 (4)
C5A—C4A 1.457 (3) C10C—H10D 0.9300
C4A—H4AA 0.9300 C9C—H9CA 0.9300
C5D—C6D 1.378 (3) C2B—C1B 1.485 (4)
C5D—C10D 1.399 (3) C2B—H2BB 0.9700
C5D—C4D 1.460 (3) C2B—H2BC 0.9700
C4D—H4DA 0.9300 C11D—H11A 0.9600
N3C—C4C 1.268 (3) C11D—H11B 0.9600
N3C—N2C 1.372 (3) C11D—H11C 0.9600
N2B—C3B 1.360 (3) C1B—H1BB 0.9600
N2B—H2BA 0.8600 C1B—H1BC 0.9600
N1B—C3B 1.326 (3) C1B—H1BD 0.9600
N1B—C2B 1.459 (3) C11A—H11D 0.9600
N1B—H1BA 0.8600 C11A—H11E 0.9600
C6A—C7A 1.366 (3) C11A—H11F 0.9600
C6A—H6AA 0.9300 C1A—H1AB 0.9600
C8D—C7D 1.375 (3) C1A—H1AC 0.9600
C8D—C9D 1.386 (3) C1A—H1AD 0.9600
C10D—C9D 1.378 (3) C11C—H11G 0.9600
C10D—H10A 0.9300 C11C—H11H 0.9600
N2C—C3C 1.347 (3) C11C—H11I 0.9600
N2C—H2CA 0.8600 C1D—H1DB 0.9600
C8B—C7B 1.364 (3) C1D—H1DC 0.9600
C8B—C9B 1.394 (3) C1D—H1DD 0.9600
C6D—C7D 1.382 (3) C11B—H11J 0.9600
C6D—H6DA 0.9300 C11B—H11K 0.9600
C8C—C9C 1.357 (4) C11B—H11L 0.9600
C8C—C7C 1.382 (3) C2C—C1C 1.344 (5)
C8A—C7A 1.375 (4) C2C—H2CB 0.9700
C8A—C9A 1.379 (4) C2C—H2CC 0.9700
C5B—C6B 1.384 (3) C1C—H1CB 0.9600
C5B—C10B 1.384 (3) C1C—H1CC 0.9600
C5B—C4B 1.450 (3) C1C—H1CD 0.9600
C8D—S2D—C11D 104.40 (13) H2DB—C2D—H2DC 107.8
C8C—S2C—C11C 104.08 (13) N1C—C3C—N2C 116.4 (2)
C8A—S1A—C11A 104.33 (15) N1C—C3C—S1C 124.9 (2)
C8B—S2B—C11B 104.45 (16) N2C—C3C—S1C 118.7 (2)
C3A—N3A—N2A 119.28 (17) C5C—C6C—C7C 120.8 (2)
C3A—N3A—H3AA 120.4 C5C—C6C—H6CA 119.6
N2A—N3A—H3AA 120.4 C7C—C6C—H6CA 119.6
C3D—N3D—C2D 124.72 (18) C10B—C9B—C8B 121.3 (2)
C3D—N3D—H3DA 117.6 C10B—C9B—H9BA 119.4
C2D—N3D—H3DA 117.6 C8B—C9B—H9BA 119.4
C4A—N2A—N3A 117.34 (18) C8D—C7D—C6D 120.4 (2)
C3D—N2D—N1D 119.31 (17) C8D—C7D—H7DA 119.8
C3D—N2D—H2DA 120.3 C6D—C7D—H7DA 119.8
N1D—N2D—H2DA 120.3 N3C—C4C—C5C 123.3 (2)
C4D—N1D—N2D 117.00 (18) N3C—C4C—H4CA 118.3
C3A—N1A—C2A 125.21 (19) C5C—C4C—H4CA 118.3
C3A—N1A—H1AA 117.4 C6C—C5C—C10C 117.1 (2)
C2A—N1A—H1AA 117.4 C6C—C5C—C4C 124.1 (2)
N3D—C3D—N2D 116.24 (18) C10C—C5C—C4C 118.8 (2)
N3D—C3D—S1D 123.83 (17) N1A—C2A—C1A 113.2 (2)
N2D—C3D—S1D 119.84 (15) N1A—C2A—H2AB 108.9
N1A—C3A—N3A 115.98 (18) C1A—C2A—H2AB 108.9
N1A—C3A—S2A 124.11 (17) N1A—C2A—H2AC 108.9
N3A—C3A—S2A 119.91 (16) C1A—C2A—H2AC 108.9
C4B—N3B—N2B 117.1 (2) H2AB—C2A—H2AC 107.8
C10A—C5A—C6A 117.6 (2) C3C—N1C—C2C 124.4 (3)
C10A—C5A—C4A 120.3 (2) C3C—N1C—H1CA 117.8
C6A—C5A—C4A 122.0 (2) C2C—N1C—H1CA 117.8
N2A—C4A—C5A 120.58 (19) C5B—C6B—C7B 121.3 (2)
N2A—C4A—H4AA 119.7 C5B—C6B—H6BA 119.3
C5A—C4A—H4AA 119.7 C7B—C6B—H6BA 119.3
C6D—C5D—C10D 118.2 (2) C6C—C7C—C8C 121.4 (2)
C6D—C5D—C4D 120.6 (2) C6C—C7C—H7CA 119.3
C10D—C5D—C4D 121.2 (2) C8C—C7C—H7CA 119.3
N1D—C4D—C5D 121.0 (2) C9C—C10C—C5C 122.2 (3)
N1D—C4D—H4DA 119.5 C9C—C10C—H10D 118.9
C5D—C4D—H4DA 119.5 C5C—C10C—H10D 118.9
C4C—N3C—N2C 115.7 (2) C8C—C9C—C10C 120.1 (2)
C3B—N2B—N3B 118.8 (2) C8C—C9C—H9CA 120.0
C3B—N2B—H2BA 120.6 C10C—C9C—H9CA 120.0
N3B—N2B—H2BA 120.6 N1B—C2B—C1B 110.0 (2)
C3B—N1B—C2B 125.2 (2) N1B—C2B—H2BB 109.7
C3B—N1B—H1BA 117.4 C1B—C2B—H2BB 109.7
C2B—N1B—H1BA 117.4 N1B—C2B—H2BC 109.7
N1B—C3B—N2B 115.0 (2) C1B—C2B—H2BC 109.7
N1B—C3B—S1B 124.81 (17) H2BB—C2B—H2BC 108.2
N2B—C3B—S1B 120.1 (2) S2D—C11D—H11A 109.5
C7A—C6A—C5A 120.7 (2) S2D—C11D—H11B 109.5
C7A—C6A—H6AA 119.6 H11A—C11D—H11B 109.5
C5A—C6A—H6AA 119.6 S2D—C11D—H11C 109.5
C7D—C8D—C9D 118.8 (2) H11A—C11D—H11C 109.5
C7D—C8D—S2D 124.82 (18) H11B—C11D—H11C 109.5
C9D—C8D—S2D 116.42 (18) C2B—C1B—H1BB 109.5
C9D—C10D—C5D 120.1 (2) C2B—C1B—H1BC 109.5
C9D—C10D—H10A 119.9 H1BB—C1B—H1BC 109.5
C5D—C10D—H10A 119.9 C2B—C1B—H1BD 109.5
C3C—N2C—N3C 120.6 (2) H1BB—C1B—H1BD 109.5
C3C—N2C—H2CA 119.7 H1BC—C1B—H1BD 109.5
N3C—N2C—H2CA 119.7 S1A—C11A—H11D 109.5
C7B—C8B—C9B 118.1 (2) S1A—C11A—H11E 109.5
C7B—C8B—S2B 125.57 (19) H11D—C11A—H11E 109.5
C9B—C8B—S2B 116.4 (2) S1A—C11A—H11F 109.5
C5D—C6D—C7D 121.4 (2) H11D—C11A—H11F 109.5
C5D—C6D—H6DA 119.3 H11E—C11A—H11F 109.5
C7D—C6D—H6DA 119.3 C2A—C1A—H1AB 109.5
C9C—C8C—C7C 118.4 (2) C2A—C1A—H1AC 109.5
C9C—C8C—S2C 124.19 (19) H1AB—C1A—H1AC 109.5
C7C—C8C—S2C 117.39 (18) C2A—C1A—H1AD 109.5
C7A—C8A—C9A 118.9 (2) H1AB—C1A—H1AD 109.5
C7A—C8A—S1A 116.1 (2) H1AC—C1A—H1AD 109.5
C9A—C8A—S1A 125.0 (2) S2C—C11C—H11G 109.5
C6B—C5B—C10B 117.6 (2) S2C—C11C—H11H 109.5
C6B—C5B—C4B 120.2 (2) H11G—C11C—H11H 109.5
C10B—C5B—C4B 122.3 (2) S2C—C11C—H11I 109.5
C8A—C9A—C10A 120.0 (2) H11G—C11C—H11I 109.5
C8A—C9A—H9AA 120.0 H11H—C11C—H11I 109.5
C10A—C9A—H9AA 120.0 C2D—C1D—H1DB 109.5
C8B—C7B—C6B 120.7 (2) C2D—C1D—H1DC 109.5
C8B—C7B—H7BA 119.6 H1DB—C1D—H1DC 109.5
C6B—C7B—H7BA 119.6 C2D—C1D—H1DD 109.5
C9A—C10A—C5A 121.3 (2) H1DB—C1D—H1DD 109.5
C9A—C10A—H10B 119.3 H1DC—C1D—H1DD 109.5
C5A—C10A—H10B 119.3 S2B—C11B—H11J 109.5
C10D—C9D—C8D 121.1 (2) S2B—C11B—H11K 109.5
C10D—C9D—H9DA 119.5 H11J—C11B—H11K 109.5
C8D—C9D—H9DA 119.5 S2B—C11B—H11L 109.5
C6A—C7A—C8A 121.4 (2) H11J—C11B—H11L 109.5
C6A—C7A—H7AA 119.3 H11K—C11B—H11L 109.5
C8A—C7A—H7AA 119.3 C1C—C2C—N1C 115.8 (4)
N3B—C4B—C5B 121.7 (2) C1C—C2C—H2CB 108.3
N3B—C4B—H4BA 119.2 N1C—C2C—H2CB 108.3
C5B—C4B—H4BA 119.2 C1C—C2C—H2CC 108.3
C9B—C10B—C5B 121.0 (2) N1C—C2C—H2CC 108.3
C9B—C10B—H10C 119.5 H2CB—C2C—H2CC 107.4
C5B—C10B—H10C 119.5 C2C—C1C—H1CB 109.5
N3D—C2D—C1D 113.1 (3) C2C—C1C—H1CC 109.5
N3D—C2D—H2DB 109.0 H1CB—C1C—H1CC 109.5
C1D—C2D—H2DB 109.0 C2C—C1C—H1CD 109.5
N3D—C2D—H2DC 109.0 H1CB—C1C—H1CD 109.5
C1D—C2D—H2DC 109.0 H1CC—C1C—H1CD 109.5
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Hydrogen-bond geometry (Å, °)

D—H···A D—H H···A D···A D—H···A
N1A—H1AA···N2A 0.86 2.20 2.602 (3) 108
N1B—H1BA···N3B 0.86 2.17 2.585 (3) 109
N1C—H1CA···N3C 0.86 2.23 2.624 (3) 108
N3D—H3DA···N1D 0.86 2.22 2.610 (3) 107
N3A—H3AA···S1Di 0.86 2.59 3.398 (2) 156
N2D—H2DA···S2Aii 0.86 2.57 3.402 (2) 163
N1A—H1AA···S1B 0.86 2.81 3.4798 (19) 136
N2B—H2BA···S1C 0.86 2.72 3.579 (2) 174
N2C—H2CA···S1B 0.86 2.64 3.487 (3) 168
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Symmetry codes: (i) x, y−1, z; (ii) x, y+1, z.

Footnotes

Supplementary data and figures for this paper are available from the IUCr electronic archives (Reference: HB5494).

References

  1. Bruker (1997). SMART and SAINT Bruker AXS Inc., Madison, Wisconsin, USA.
  2. Li, Y.-F. & Jian, F.-F. (2010). Acta Cryst. E66, o1399. [DOI] [PMC free article] [PubMed]
  3. Sheldrick, G. M. (2008). Acta Cryst. A64, 112–122. [DOI] [PubMed]

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/S1600536810022920/hb5494sup1.cif

e-66-o1715-sup1.cif (31.5KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S1600536810022920/hb5494Isup2.hkl

e-66-o1715-Isup2.hkl (588.2KB, 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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