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As an important class of heterocyclic compounds, 1,3,4-thia­diazo­les have a broad range of potential applications in medicine, agriculture and materials chemistry, and were found to be excellent precursors for the crystal engineering of organometallic materials. The coordinating behaviour of allyl derivatives of 1,3,4-thia­diazo­les with respect to transition metal ions has been little studied. Five new crystalline copper(I) π-complexes have been obtained by means of an alternating current electrochemical technique and have been characterized by single-crystal X-ray diffraction and IR spectroscopy. The compounds are bis­[μ-5-methyl-N-(prop-2-en-1-yl)-1,3,4-thia­diazol-2-amine]­bis­[nitratocopper(I)], [Cu2(NO3)2(C6H9N3S)2], (1), bis­[μ-5-methyl-N-(prop-2-en-1-yl)-1,3,4-thia­diazol-2-amine]­bis­[(tetra­fluoro­borato)copper(I)], [Cu2(BF4)2(C6H9N3S)2], (2), μ-aqua-bis­{μ-5-[(prop-2-en-1-yl)sulfan­yl]-1,3,4-thia­diazol-2-amine}­bis­[nitrato­copper(I)], [Cu2(NO3)2(C5H7N3S2)2(H2O)], (3), μ-aqua-(hexa­fluoro­silicato)bis­{μ-5-[(prop-2-en-1-yl)sulfan­yl]-1,3,4-thia­diazol-2-amine}­di­copper(I)–aceto­nitrile–water (2/1/4), [Cu2(SiF6)(C5H7N3S2)2(H2O)]·0.5CH3CN·2H2O, (4), and μ-benzene­sulfonato-bis­{μ-5-[(prop-2-en-1-yl)sulfan­yl]-1,3,4-thia­diazol-2-amine}­dicopper(I) benzene­sulfonate–methanol–water (1/1/1), [Cu2(C6H5O3S)(C5H7N3S2)2](C6H5O3S)·CH3OH·H2O, (5). The structure of the ligand 5-methyl-N-(prop-2-en-1-yl)-1,3,4-thia­diazol-2-amine (Mepeta), C6H9N3S, was also structurally characterized. Both Mepeta and 5-[(prop-2-en-1-yl)sulfan­yl]-1,3,4-thia­diazol-2-amine (Pesta) (denoted L) reveal a strong tendency to form dimeric {Cu2L2}2+ fragments, being attached to the metal atom in a chelating–bridging mode via two thia­diazole N atoms and an allylic C=C bond. Flexibility of the {Cu2(Pesta)2}2+ unit allows the CuI atom site to be split into two positions with different metal-coordination environments, thus enabling the competitive participation of different molecules in bonding to the metal centre. The Pesta ligand in (4) allows the CuI atom to vary between water O-atom and hexa­fluorosilicate F-atom coordination, resulting in the rare case of a direct CuI...FSiF52− inter­action. Extensive three-dimensional hydrogen-bonding patterns are formed in the reported crystal structures. Complex (5) should be considered as the first known example of a CuI(C6H5SO3) coordination com­pound. To determine the hydrogen-bond inter­actions in the structures of (1) and (2), a Hirshfeld surface analysis has been performed.

Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229616018751/fn3225sup1.cif
Contains datablocks mepeta, 1, 2, 3, 4, 5, publication_text

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229616018751/fn3225mepetasup2.hkl
Contains datablock mepeta

mol

MDL mol file https://doi.org/10.1107/S2053229616018751/fn3225mepetasup8.mol
Supplementary material

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229616018751/fn32251sup3.hkl
Contains datablock 1

mol

MDL mol file https://doi.org/10.1107/S2053229616018751/fn32251sup9.mol
Supplementary material

mol

MDL mol file https://doi.org/10.1107/S2053229616018751/fn32252sup10.mol
Supplementary material

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229616018751/fn32252sup4.hkl
Contains datablock 2

mol

MDL mol file https://doi.org/10.1107/S2053229616018751/fn32253sup11.mol
Supplementary material

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229616018751/fn32253sup5.hkl
Contains datablock 3

mol

MDL mol file https://doi.org/10.1107/S2053229616018751/fn32254sup12.mol
Supplementary material

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229616018751/fn32254sup7.hkl
Contains datablock 4

mol

MDL mol file https://doi.org/10.1107/S2053229616018751/fn32255sup13.mol
Supplementary material

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229616018751/fn32255sup14.hkl
Contains datablock 5

CCDC references: 1493325; 1493324; 1493323; 1493322; 1518815; 1493321

Computing details top

Data collection: CrysAlis PRO (Rigaku OD, 2015) for mepeta, (1), (3), (5); CrysAlis CCD (Oxford Diffraction, 2010) for (2), (4). Cell refinement: CrysAlis PRO (Rigaku OD, 2015) for mepeta, (1), (3), (5); CrysAlis RED (Oxford Diffraction, 2010) for (2), (4). Data reduction: CrysAlis PRO (Rigaku OD, 2015) for mepeta, (1), (3), (5); CrysAlis RED (Oxford Diffraction, 2010) for (2), (4). For all compounds, program(s) used to solve structure: SHELXT (Sheldrick, 2015a); program(s) used to refine structure: SHELXL2014 (Sheldrick, 2015b); molecular graphics: OLEX2 (Dolomanov et al., 2009); software used to prepare material for publication: OLEX2 (Dolomanov et al., 2009).

(mepeta) 5-Methyl-N-(prop-2-en-1-yl)-1,3,4-thiadiazol-2-amine top
Crystal data top
C6H9N3SDx = 1.323 Mg m3
Mr = 155.22Mo Kα radiation, λ = 0.71073 Å
Orthorhombic, Pna21Cell parameters from 5973 reflections
a = 8.843 (3) Åθ = 3.3–36.3°
b = 17.485 (5) ŵ = 0.34 mm1
c = 5.041 (3) ÅT = 120 K
V = 779.4 (6) Å3Plate, clear light colourless
Z = 40.98 × 0.42 × 0.11 mm
F(000) = 328
Data collection top
Kuma KM-4-CCD
diffractometer
3214 independent reflections
Radiation source: Kuma KM-4-CCD, Kuma KM-4-CCD2812 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.051
Detector resolution: 8.3359 pixels mm-1θmax = 36.8°, θmin = 3.3°
ω scansh = 1411
Absorption correction: analytical
[CrysAlis PRO (Rigaku OD, 2015), based on expressions derived by Clark & Reid (1995)]
k = 2726
Tmin = 0.801, Tmax = 0.964l = 78
11519 measured reflections
Refinement top
Refinement on F2Hydrogen site location: mixed
Least-squares matrix: fullH atoms treated by a mixture of independent and constrained refinement
R[F2 > 2σ(F2)] = 0.042 w = 1/[σ2(Fo2) + (0.061P)2]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.105(Δ/σ)max < 0.001
S = 1.06Δρmax = 0.31 e Å3
3214 reflectionsΔρmin = 0.31 e Å3
124 parametersAbsolute structure: Refined as an inversion twin
1 restraintAbsolute structure parameter: 0.27 (11)
Primary atom site location: structure-invariant direct methods
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Refinement. Refined as a 2-component inversion twin

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
S10.77479 (4)0.83578 (2)0.66791 (14)0.03107 (13)
N10.71891 (16)0.73279 (10)0.2801 (4)0.0345 (3)
H10.814 (3)0.7180 (15)0.295 (6)0.041*
N30.51665 (15)0.80284 (9)0.4639 (4)0.0335 (3)
N40.48989 (16)0.85941 (10)0.6522 (5)0.0387 (3)
C20.66088 (16)0.78417 (9)0.4483 (4)0.0279 (3)
C50.6107 (2)0.88210 (11)0.7732 (4)0.0346 (4)
C60.6120 (3)0.94181 (13)0.9846 (5)0.0469 (5)
H6A0.66340.92181.14220.070*
H6B0.50780.95561.03020.070*
H6C0.66560.98720.92000.070*
C7A0.6390 (4)0.69117 (19)0.0720 (8)0.0276 (6)0.660 (6)
H7AA0.70620.68570.08410.033*0.660 (6)
H7AB0.54920.72090.01640.033*0.660 (6)
C7B0.5939 (6)0.6893 (4)0.1468 (17)0.0275 (12)0.340 (6)
H7BA0.52530.66620.27980.033*0.340 (6)
H7BB0.53430.72340.02980.033*0.340 (6)
C8A0.5898 (3)0.61366 (15)0.1627 (7)0.0326 (6)0.660 (6)
H8A0.53420.60830.32290.039*0.660 (6)
C8B0.6714 (5)0.6288 (3)0.0111 (11)0.0296 (13)0.340 (6)
H8B0.75320.64150.12500.035*0.340 (6)
C9A0.6238 (13)0.5524 (6)0.020 (3)0.061 (4)0.660 (6)
H9AA0.67940.55780.14040.073*0.660 (6)
H9AB0.59260.50320.07740.073*0.660 (6)
C9B0.621 (2)0.5524 (9)0.012 (3)0.042 (6)0.340 (6)
H9BA0.53940.54030.12600.051*0.340 (6)
H9BB0.66940.51320.08770.051*0.340 (6)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
S10.02516 (16)0.0356 (2)0.0324 (2)0.00651 (12)0.00796 (18)0.0006 (2)
N10.0290 (6)0.0327 (8)0.0417 (8)0.0004 (5)0.0151 (6)0.0023 (7)
N30.0227 (5)0.0346 (8)0.0430 (9)0.0016 (5)0.0083 (6)0.0042 (7)
N40.0308 (6)0.0407 (8)0.0446 (9)0.0035 (5)0.0044 (8)0.0040 (9)
C20.0228 (5)0.0278 (7)0.0330 (9)0.0057 (5)0.0094 (6)0.0072 (6)
C50.0360 (7)0.0346 (9)0.0332 (9)0.0007 (6)0.0027 (7)0.0042 (7)
C60.0613 (12)0.0426 (11)0.0368 (11)0.0010 (10)0.0021 (10)0.0012 (9)
C7A0.0245 (13)0.0283 (13)0.0302 (16)0.0014 (11)0.0038 (11)0.0017 (12)
C7B0.0136 (17)0.037 (3)0.032 (3)0.0037 (17)0.001 (2)0.012 (3)
C8A0.0305 (10)0.0327 (12)0.0344 (13)0.0051 (8)0.0006 (13)0.0042 (14)
C8B0.0218 (17)0.039 (3)0.027 (3)0.0006 (16)0.0011 (16)0.0031 (19)
C9A0.056 (6)0.035 (5)0.092 (8)0.005 (4)0.003 (5)0.007 (4)
C9B0.054 (10)0.031 (8)0.042 (8)0.004 (6)0.012 (6)0.026 (6)
Geometric parameters (Å, º) top
S1—C21.7478 (18)C7A—H7AB0.9900
S1—C51.744 (2)C7A—C8A1.495 (4)
N1—H10.88 (3)C7B—H7BA0.9900
N1—C21.338 (3)C7B—H7BB0.9900
N1—C7A1.459 (4)C7B—C8B1.490 (9)
N1—C7B1.501 (5)C8A—H8A0.9500
N3—N41.391 (3)C8A—C9A1.325 (10)
N3—C21.319 (2)C8B—H8B0.9500
N4—C51.293 (3)C8B—C9B1.412 (19)
C5—C61.492 (3)C9A—H9AA0.9500
C6—H6A0.9800C9A—H9AB0.9500
C6—H6B0.9800C9B—H9BA0.9500
C6—H6C0.9800C9B—H9BB0.9500
C7A—H7AA0.9900
C5—S1—C287.31 (9)N1—C7A—C8A111.9 (3)
C2—N1—H1120.7 (19)H7AA—C7A—H7AB107.9
C2—N1—C7A127.2 (2)C8A—C7A—H7AA109.2
C2—N1—C7B110.0 (3)C8A—C7A—H7AB109.2
C7A—N1—H1112.0 (19)N1—C7B—H7BA110.7
C7B—N1—H1126.2 (18)N1—C7B—H7BB110.7
C2—N3—N4112.41 (14)H7BA—C7B—H7BB108.8
C5—N4—N3113.55 (15)C8B—C7B—N1105.1 (4)
N1—C2—S1121.81 (11)C8B—C7B—H7BA110.7
N3—C2—S1113.06 (15)C8B—C7B—H7BB110.7
N3—C2—N1125.11 (16)C7A—C8A—H8A120.0
N4—C5—S1113.66 (16)C9A—C8A—C7A120.0 (6)
N4—C5—C6123.92 (19)C9A—C8A—H8A120.0
C6—C5—S1122.42 (15)C7B—C8B—H8B120.5
C5—C6—H6A109.5C9B—C8B—C7B118.9 (8)
C5—C6—H6B109.5C9B—C8B—H8B120.5
C5—C6—H6C109.5C8A—C9A—H9AA120.0
H6A—C6—H6B109.5C8A—C9A—H9AB120.0
H6A—C6—H6C109.5H9AA—C9A—H9AB120.0
H6B—C6—H6C109.5C8B—C9B—H9BA120.0
N1—C7A—H7AA109.2C8B—C9B—H9BB120.0
N1—C7A—H7AB109.2H9BA—C9B—H9BB120.0
N1—C7A—C8A—C9A128.3 (6)C2—N1—C7B—C8B174.0 (4)
N1—C7B—C8B—C9B130.5 (9)C2—N3—N4—C50.1 (2)
N3—N4—C5—S10.0 (2)C5—S1—C2—N1178.47 (17)
N3—N4—C5—C6179.6 (2)C5—S1—C2—N30.01 (15)
N4—N3—C2—S10.0 (2)C7A—N1—C2—S1174.1 (2)
N4—N3—C2—N1178.39 (18)C7A—N1—C2—N34.2 (4)
C2—S1—C5—N40.02 (16)C7B—N1—C2—S1171.5 (4)
C2—S1—C5—C6179.64 (18)C7B—N1—C2—N310.2 (4)
C2—N1—C7A—C8A96.0 (3)
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N1—H1···N3i0.88 (3)2.02 (3)2.860 (2)159 (3)
C7A—H7AA···S1ii0.992.973.462 (4)112
C7B—H7BA···S1iii0.992.963.880 (8)156
C8B—H8B···N4iv0.952.383.295 (5)163
Symmetry codes: (i) x+1/2, y+3/2, z; (ii) x, y, z1; (iii) x1/2, y+3/2, z; (iv) x+1/2, y+3/2, z1.
(1) Bis[µ-5-methyl-N-(prop-2-en-1-yl)-1,3,4-thiadiazol-2-amine]bis[nitratocopper(I)] top
Crystal data top
[Cu2(NO3)2(C6H9N3S)2]Z = 1
Mr = 561.54F(000) = 284
Triclinic, P1Dx = 1.934 Mg m3
a = 7.235 (3) ÅMo Kα radiation, λ = 0.71073 Å
b = 7.548 (3) ÅCell parameters from 3143 reflections
c = 10.297 (4) Åθ = 3.1–38.5°
α = 105.42 (3)°µ = 2.47 mm1
β = 98.15 (3)°T = 100 K
γ = 112.43 (3)°Block, clear colourless
V = 482.0 (4) Å30.43 × 0.21 × 0.14 mm
Data collection top
Rigaku Xcalibur Onyx
diffractometer
8459 independent reflections
Radiation source: fine-focus sealed X-ray tube, Enhance (Mo) X-ray Source6900 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.020
Detector resolution: 8.1956 pixels mm-1θmax = 38.5°, θmin = 3.1°
ω and φ scansh = 712
Absorption correction: analytical
[CrysAlis PRO (Rigaku OD, 2015), based on expressions derived by Clark & Reid (1995)]
k = 1312
Tmin = 0.542, Tmax = 0.768l = 1414
8459 measured reflections
Refinement top
Refinement on F20 restraints
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.034H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.096 w = 1/[σ2(Fo2) + (0.061P)2]
where P = (Fo2 + 2Fc2)/3
S = 1.06(Δ/σ)max < 0.001
8459 reflectionsΔρmax = 0.88 e Å3
141 parametersΔρmin = 1.03 e Å3
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Refinement. Refined as a 2-component twin.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/Ueq
Cu10.57775 (3)0.57834 (3)0.68133 (2)0.01261 (7)
S10.18975 (7)0.09982 (7)0.47322 (5)0.01402 (10)
O10.2950 (3)0.6861 (3)0.6800 (2)0.0308 (4)
O20.2567 (3)0.8531 (3)0.8713 (2)0.0348 (4)
O30.1088 (3)0.5240 (3)0.7949 (2)0.0312 (4)
N10.2182 (3)0.6865 (3)0.7824 (2)0.0193 (4)
N20.4533 (3)0.1392 (3)0.72781 (19)0.0161 (3)
H20.411 (4)0.037 (4)0.746 (3)0.019*
N30.4220 (2)0.2864 (2)0.55566 (17)0.0122 (3)
N40.3167 (2)0.2273 (2)0.41582 (17)0.0123 (3)
C20.3733 (3)0.1302 (3)0.6002 (2)0.0127 (3)
C50.1895 (3)0.0338 (3)0.3607 (2)0.0134 (3)
C60.0538 (3)0.0697 (3)0.2141 (2)0.0177 (4)
H6A0.13750.09000.14970.027*
H6B0.01030.01550.19140.027*
H6C0.05510.20260.20480.027*
C70.6182 (3)0.3254 (3)0.8338 (2)0.0161 (4)
H7A0.74810.35910.80430.019*
H7B0.64310.30100.92310.019*
C80.5662 (3)0.5039 (3)0.8573 (2)0.0150 (4)
H80.42460.47860.84470.018*
C90.7131 (3)0.7002 (3)0.8957 (2)0.0177 (4)
H9A0.85560.72890.90890.021*
H9B0.67330.80860.90950.021*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cu10.01666 (12)0.00964 (10)0.00970 (11)0.00374 (9)0.00286 (9)0.00403 (8)
S10.0159 (2)0.00918 (18)0.0168 (2)0.00455 (16)0.00471 (18)0.00559 (17)
O10.0361 (10)0.0419 (10)0.0367 (10)0.0264 (9)0.0210 (8)0.0279 (9)
O20.0434 (11)0.0194 (8)0.0398 (11)0.0152 (7)0.0100 (9)0.0064 (8)
O30.0275 (9)0.0200 (7)0.0523 (12)0.0074 (7)0.0187 (8)0.0224 (8)
N10.0164 (8)0.0178 (8)0.0296 (10)0.0088 (7)0.0069 (7)0.0148 (8)
N20.0208 (8)0.0123 (7)0.0162 (8)0.0057 (6)0.0053 (6)0.0087 (7)
N30.0162 (7)0.0104 (6)0.0098 (7)0.0051 (6)0.0036 (6)0.0045 (6)
N40.0151 (7)0.0098 (6)0.0109 (7)0.0042 (5)0.0039 (6)0.0036 (6)
C20.0136 (8)0.0102 (7)0.0153 (9)0.0050 (6)0.0054 (7)0.0055 (7)
C50.0152 (8)0.0103 (7)0.0153 (9)0.0057 (7)0.0049 (7)0.0050 (7)
C60.0184 (9)0.0112 (7)0.0168 (9)0.0028 (7)0.0007 (7)0.0029 (7)
C70.0198 (9)0.0165 (8)0.0134 (9)0.0082 (7)0.0034 (7)0.0074 (7)
C80.0195 (9)0.0174 (8)0.0099 (8)0.0083 (7)0.0042 (7)0.0070 (7)
C90.0238 (10)0.0164 (8)0.0098 (8)0.0070 (7)0.0009 (7)0.0048 (7)
Geometric parameters (Å, º) top
Cu1—N31.9940 (19)N4—Cu1i1.9690 (18)
Cu1—N4i1.9690 (18)N4—C51.299 (2)
Cu1—C82.038 (2)C5—C61.491 (3)
Cu1—C92.073 (2)C6—H6A0.9800
S1—C21.741 (2)C6—H6B0.9800
S1—C51.727 (2)C6—H6C0.9800
O1—N11.259 (3)C7—H7A0.9900
O2—N11.243 (2)C7—H7B0.9900
O3—N11.233 (2)C7—C81.502 (3)
N2—H20.80 (3)C8—H80.9500
N2—C21.331 (3)C8—C91.360 (3)
N2—C71.458 (3)C9—H9A0.9500
N3—N41.393 (2)C9—H9B0.9500
N3—C21.319 (3)
N3—Cu1—C892.55 (8)C5—C6—H6A109.5
N3—Cu1—C9129.43 (8)C5—C6—H6B109.5
N4i—Cu1—N3114.48 (7)C5—C6—H6C109.5
N4i—Cu1—C8152.33 (8)H6A—C6—H6B109.5
N4i—Cu1—C9113.75 (9)H6A—C6—H6C109.5
C8—Cu1—C938.62 (8)H6B—C6—H6C109.5
C5—S1—C287.58 (10)N2—C7—H7A109.1
O2—N1—O1118.97 (19)N2—C7—H7B109.1
O3—N1—O1120.4 (2)N2—C7—C8112.34 (17)
O3—N1—O2120.6 (2)H7A—C7—H7B107.9
C2—N2—H2118.5 (18)C8—C7—H7A109.1
C2—N2—C7122.94 (18)C8—C7—H7B109.1
C7—N2—H2118.6 (18)Cu1—C8—H892.0
N4—N3—Cu1122.79 (13)C7—C8—Cu1105.91 (14)
C2—N3—Cu1123.96 (14)C7—C8—H8118.6
C2—N3—N4112.03 (15)C9—C8—Cu172.10 (13)
N3—N4—Cu1i117.17 (12)C9—C8—C7122.76 (19)
C5—N4—Cu1i127.96 (15)C9—C8—H8118.6
C5—N4—N3113.16 (17)Cu1—C9—H9A106.6
N2—C2—S1121.22 (15)Cu1—C9—H9B93.9
N3—C2—S1113.25 (15)C8—C9—Cu169.28 (13)
N3—C2—N2125.52 (18)C8—C9—H9A120.0
N4—C5—S1113.95 (16)C8—C9—H9B120.0
N4—C5—C6124.60 (19)H9A—C9—H9B120.0
C6—C5—S1121.45 (14)
Cu1—N3—N4—Cu1i27.76 (18)N4—N3—C2—N2178.15 (18)
Cu1—N3—N4—C5165.92 (13)C2—S1—C5—N40.82 (15)
Cu1—N3—C2—S1166.41 (9)C2—S1—C5—C6179.44 (17)
Cu1—N3—C2—N214.2 (3)C2—N2—C7—C852.9 (3)
Cu1i—N4—C5—S1162.81 (10)C2—N3—N4—Cu1i164.39 (13)
Cu1i—N4—C5—C616.9 (3)C2—N3—N4—C51.9 (2)
N2—C7—C8—Cu170.33 (19)C5—S1—C2—N2179.15 (17)
N2—C7—C8—C9149.0 (2)C5—S1—C2—N30.30 (15)
N3—N4—C5—S11.7 (2)C7—N2—C2—S1175.35 (14)
N3—N4—C5—C6178.57 (17)C7—N2—C2—N34.0 (3)
N4—N3—C2—S11.3 (2)C7—C8—C9—Cu197.74 (19)
Symmetry code: (i) x+1, y+1, z+1.
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N2—H2···O1ii0.80 (3)2.32 (3)3.034 (3)150 (2)
N2—H2···O2ii0.80 (3)2.24 (3)2.970 (3)153 (2)
N2—H2···N1ii0.80 (3)2.63 (3)3.426 (3)172 (2)
C6—H6B···O2iii0.982.443.391 (3)164
C6—H6C···O3iv0.982.313.142 (3)143
C7—H7A···O3v0.992.453.415 (3)164
C8—H8···O30.952.443.350 (3)160
C8—H8···N10.952.683.391 (3)133
Symmetry codes: (ii) x, y1, z; (iii) x, y+1, z+1; (iv) x, y, z+1; (v) x+1, y, z.
(2) Bis[µ-5-methyl-N-(prop-2-en-1-yl)-1,3,4-thiadiazol-2-amine]bis[(tetrafluoroborato)copper(I)] top
Crystal data top
[Cu2(BF4)2(C6H9N3S)2]Z = 1
Mr = 611.14F(000) = 304
Triclinic, P1Dx = 2.011 Mg m3
a = 7.754 (3) ÅMo Kα radiation, λ = 0.71073 Å
b = 7.965 (3) ÅCell parameters from 6709 reflections
c = 10.372 (4) Åθ = 3.0–38.4°
α = 67.57 (3)°µ = 2.40 mm1
β = 89.99 (3)°T = 100 K
γ = 61.07 (3)°Block, clear colourless
V = 504.6 (4) Å30.44 × 0.23 × 0.18 mm
Data collection top
Rigaku Xcalibur Onyx
diffractometer
4784 independent reflections
Radiation source: Enhance (Mo) X-ray Source4163 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.014
Detector resolution: 8.1956 pixels mm-1θmax = 38.5°, θmin = 3.0°
ω and π scansh = 1210
Absorption correction: analytical
[CrysAlis PRO (Rigaku OD, 2015), based on expressions derived by Clark & Reid (1995)]
k = 1313
Tmin = 0.498, Tmax = 0.711l = 1618
8712 measured reflections
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.022H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.061 w = 1/[σ2(Fo2) + (0.037P)2 + 0.007P]
where P = (Fo2 + 2Fc2)/3
S = 1.07(Δ/σ)max = 0.001
4784 reflectionsΔρmax = 0.56 e Å3
149 parametersΔρmin = 0.51 e Å3
0 restraints
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/Ueq
Cu10.40020 (2)0.60430 (2)0.31778 (2)0.01224 (4)
S10.81824 (4)0.10490 (3)0.52116 (2)0.01379 (5)
N20.52780 (14)0.17402 (13)0.27870 (9)0.01616 (15)
H20.574 (2)0.071 (2)0.2533 (17)0.019*
N30.56082 (13)0.29189 (12)0.44914 (8)0.01262 (13)
N40.67773 (12)0.20945 (12)0.58491 (8)0.01243 (13)
C20.61534 (15)0.14328 (14)0.40314 (10)0.01299 (15)
C50.81566 (15)0.00725 (14)0.63542 (10)0.01316 (15)
C60.96188 (16)0.12310 (15)0.77723 (10)0.01759 (18)
H6A1.06530.26150.78250.026*
H6B0.88980.14490.85370.026*
H6C1.02660.04860.78870.026*
C70.35674 (15)0.37956 (15)0.17735 (10)0.01552 (16)
H7A0.23700.41610.22010.019*
H7B0.32340.36960.08940.019*
C80.40423 (15)0.55286 (15)0.13881 (10)0.01463 (16)
H80.54110.51470.14080.018*
C90.26128 (16)0.76235 (15)0.10109 (10)0.01708 (17)
H9A0.12320.80520.09820.020*
H9B0.30030.86470.07790.020*
F10.77274 (12)0.53404 (11)0.31378 (8)0.02589 (15)
F20.58069 (11)0.88916 (10)0.16685 (8)0.02546 (15)
F30.90363 (12)0.74658 (12)0.27778 (8)0.02710 (15)
F40.84274 (12)0.66901 (12)0.09893 (8)0.02720 (15)
B10.77701 (18)0.70789 (18)0.21457 (12)0.01625 (19)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cu10.01465 (6)0.01181 (5)0.00981 (5)0.00615 (4)0.00179 (4)0.00534 (4)
S10.01564 (11)0.01145 (9)0.01421 (9)0.00626 (8)0.00329 (8)0.00664 (7)
N20.0183 (4)0.0156 (3)0.0151 (3)0.0070 (3)0.0018 (3)0.0096 (3)
N30.0145 (3)0.0130 (3)0.0110 (3)0.0068 (3)0.0030 (3)0.0064 (2)
N40.0141 (3)0.0123 (3)0.0109 (3)0.0068 (3)0.0027 (3)0.0052 (2)
C20.0140 (4)0.0136 (3)0.0136 (3)0.0077 (3)0.0043 (3)0.0072 (3)
C50.0147 (4)0.0131 (3)0.0124 (3)0.0074 (3)0.0037 (3)0.0060 (3)
C60.0192 (5)0.0134 (4)0.0152 (4)0.0057 (3)0.0005 (3)0.0053 (3)
C70.0170 (4)0.0175 (4)0.0135 (3)0.0095 (3)0.0012 (3)0.0075 (3)
C80.0166 (4)0.0180 (4)0.0111 (3)0.0095 (3)0.0035 (3)0.0075 (3)
C90.0207 (5)0.0170 (4)0.0116 (3)0.0092 (3)0.0004 (3)0.0053 (3)
F10.0294 (4)0.0217 (3)0.0270 (3)0.0169 (3)0.0054 (3)0.0063 (3)
F20.0218 (3)0.0197 (3)0.0337 (4)0.0066 (3)0.0039 (3)0.0163 (3)
F30.0303 (4)0.0363 (4)0.0294 (4)0.0246 (3)0.0069 (3)0.0183 (3)
F40.0300 (4)0.0323 (4)0.0234 (3)0.0140 (3)0.0106 (3)0.0191 (3)
B10.0183 (5)0.0171 (4)0.0183 (4)0.0105 (4)0.0054 (4)0.0106 (4)
Geometric parameters (Å, º) top
Cu1—N32.0036 (15)C6—H6A0.9800
Cu1—N4i1.9646 (11)C6—H6B0.9800
Cu1—C82.0451 (12)C6—H6C0.9800
Cu1—C92.0799 (15)C7—H7A0.9900
S1—C21.7397 (16)C7—H7B0.9900
S1—C51.7301 (11)C7—C81.5072 (15)
N2—H20.869 (15)C8—H80.9500
N2—C21.3361 (13)C8—C91.3706 (16)
N2—C71.4597 (16)C9—H9A0.9500
N3—N41.3983 (13)C9—H9B0.9500
N3—C21.3244 (13)F1—B11.3908 (15)
N4—Cu1i1.9645 (11)F2—B11.4055 (16)
N4—C51.3046 (14)F3—B11.3914 (14)
C5—C61.4910 (16)F4—B11.3873 (14)
N3—Cu1—C892.88 (5)H6A—C6—H6C109.5
N3—Cu1—C9130.27 (5)H6B—C6—H6C109.5
N4i—Cu1—N3114.54 (5)N2—C7—H7A109.4
N4i—Cu1—C8152.58 (4)N2—C7—H7B109.4
N4i—Cu1—C9114.25 (5)N2—C7—C8111.16 (9)
C8—Cu1—C938.80 (5)H7A—C7—H7B108.0
C5—S1—C287.64 (6)C8—C7—H7A109.4
C2—N2—H2120.4 (10)C8—C7—H7B109.4
C2—N2—C7122.90 (9)Cu1—C8—H893.4
C7—N2—H2116.6 (10)C7—C8—Cu1104.65 (7)
N4—N3—Cu1122.78 (7)C7—C8—H8118.1
C2—N3—Cu1122.80 (7)C9—C8—Cu171.97 (7)
C2—N3—N4111.58 (9)C9—C8—C7123.77 (10)
N3—N4—Cu1i117.92 (7)C9—C8—H8118.1
C5—N4—Cu1i128.40 (7)Cu1—C9—H9A105.1
C5—N4—N3113.33 (9)Cu1—C9—H9B95.4
N2—C2—S1121.34 (8)C8—C9—Cu169.23 (7)
N3—C2—S1113.61 (8)C8—C9—H9A120.0
N3—C2—N2125.05 (9)C8—C9—H9B120.0
N4—C5—S1113.80 (8)H9A—C9—H9B120.0
N4—C5—C6125.29 (9)F1—B1—F2108.91 (10)
C6—C5—S1120.91 (8)F1—B1—F3110.33 (10)
C5—C6—H6A109.5F3—B1—F2108.25 (9)
C5—C6—H6B109.5F4—B1—F1109.58 (9)
C5—C6—H6C109.5F4—B1—F2109.39 (10)
H6A—C6—H6B109.5F4—B1—F3110.34 (10)
Cu1—N3—N4—Cu1i25.80 (10)N4—N3—C2—N2178.42 (9)
Cu1—N3—N4—C5160.39 (7)C2—S1—C5—N41.04 (8)
Cu1—N3—C2—S1159.58 (5)C2—S1—C5—C6179.13 (9)
Cu1—N3—C2—N220.20 (14)C2—N2—C7—C854.40 (13)
Cu1i—N4—C5—S1173.28 (5)C2—N3—N4—Cu1i172.82 (7)
Cu1i—N4—C5—C66.89 (15)C2—N3—N4—C51.00 (11)
N2—C7—C8—Cu172.62 (9)C5—S1—C2—N2178.59 (9)
N2—C7—C8—C9150.50 (9)C5—S1—C2—N31.63 (8)
N3—N4—C5—S10.26 (11)C7—N2—C2—S1179.68 (8)
N3—N4—C5—C6179.91 (9)C7—N2—C2—N30.55 (16)
N4—N3—C2—S11.80 (10)C7—C8—C9—Cu195.87 (9)
Symmetry code: (i) x+1, y+1, z+1.
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N2—H2···F2ii0.87 (2)1.95 (2)2.7874 (14)160 (1)
N2—H2···F3ii0.87 (2)2.53 (2)3.242 (2)140 (1)
C6—H6A···F1iii0.982.513.4175 (19)154
C6—H6B···F4iv0.982.543.4628 (19)157
C6—H6C···F3v0.982.563.4824 (18)157
C7—H7B···F4vi0.992.533.4900 (17)163
C8—H8···F10.952.643.2956 (18)127
Symmetry codes: (ii) x, y1, z; (iii) x+2, y, z+1; (iv) x, y1, z+1; (v) x+2, y+1, z+1; (vi) x+1, y+1, z.
(3) µ-Aqua-bis{µ-5-[(prop-2-en-1-yl)sulfanyl]-1,3,4-thiadiazol-2-amine}bis[nitratocopper(I)] top
Crystal data top
[Cu2(NO3)2(C5H7N3S2)2(H2O)]F(000) = 1240
Mr = 615.63Dx = 2.014 Mg m3
Monoclinic, P21/cMo Kα radiation, λ = 0.71073 Å
a = 7.379 (3) ÅCell parameters from 3740 reflections
b = 18.780 (5) Åθ = 2.8–32.2°
c = 14.702 (4) ŵ = 2.56 mm1
β = 94.82 (3)°T = 100 K
V = 2030.2 (11) Å3Block, clear colourless
Z = 40.3 × 0.18 × 0.13 mm
Data collection top
Rigaku Xcalibur Ruby
diffractometer
6647 independent reflections
Radiation source: Enhance (Mo) X-ray Source4618 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.037
Detector resolution: 10.3456 pixels mm-1θmax = 32.3°, θmin = 2.8°
ω scansh = 711
Absorption correction: analytical
[CrysAlis PRO (Rigaku OD, 2015), based on expressions derived by Clark & Reid (1995)]
k = 2816
Tmin = 0.577, Tmax = 0.776l = 2117
11883 measured reflections
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.045H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.115 w = 1/[σ2(Fo2) + (0.046P)2 + 0.307P]
where P = (Fo2 + 2Fc2)/3
S = 1.01(Δ/σ)max = 0.001
6647 reflectionsΔρmax = 0.68 e Å3
346 parametersΔρmin = 0.70 e Å3
0 restraints
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cu1A0.6758 (2)0.54841 (9)0.28897 (8)0.0254 (2)0.765 (6)
Cu1B0.6292 (7)0.5656 (2)0.2979 (3)0.0226 (6)0.235 (6)
Cu2A0.4280 (2)0.67847 (8)0.15853 (14)0.0280 (2)0.794 (7)
Cu2B0.4045 (8)0.6712 (3)0.1832 (4)0.0222 (7)0.206 (7)
S110.88194 (11)0.77496 (4)0.33415 (5)0.03405 (17)
S12A0.9467 (2)0.64460 (14)0.45789 (9)0.0351 (4)0.765 (6)
S12B0.9288 (9)0.6667 (3)0.4581 (4)0.0348 (14)*0.235 (6)
S210.32163 (10)0.45394 (3)0.06167 (5)0.02596 (15)
S220.09397 (10)0.58465 (4)0.02178 (5)0.02980 (16)
O10.3426 (4)0.61593 (15)0.31989 (18)0.0561 (8)
H1A0.262 (7)0.578 (3)0.323 (3)0.084*
H1B0.326 (6)0.647 (2)0.373 (3)0.084*
O210.5703 (3)0.69954 (12)0.00949 (15)0.0405 (5)
O220.4733 (3)0.80878 (11)0.00474 (15)0.0381 (5)
O230.4103 (4)0.73874 (12)0.10980 (15)0.0468 (6)
N20.4863 (4)0.74886 (13)0.03207 (16)0.0321 (6)
N120.6913 (4)0.81795 (15)0.17938 (18)0.0358 (6)
H12A0.750 (5)0.8612 (18)0.189 (2)0.043*
H12B0.624 (5)0.8080 (19)0.132 (2)0.043*
N130.7304 (3)0.65507 (13)0.29752 (15)0.0280 (5)
N140.6605 (3)0.70080 (12)0.22911 (15)0.0264 (5)
N220.6172 (4)0.40718 (13)0.16391 (18)0.0301 (5)
H22A0.717 (5)0.4157 (17)0.196 (2)0.036*
H22B0.585 (5)0.3677 (17)0.146 (2)0.036*
N230.4050 (3)0.57409 (11)0.13393 (15)0.0231 (4)
N240.5332 (3)0.52684 (12)0.17360 (14)0.0238 (4)
C120.8423 (4)0.68604 (17)0.35797 (19)0.0318 (6)
C150.7307 (4)0.76500 (15)0.23714 (19)0.0287 (6)
C17A0.7803 (6)0.5763 (2)0.4787 (3)0.0313 (10)0.765 (6)
H17A0.80430.55880.54210.038*0.765 (6)
H17B0.65750.59790.47320.038*0.765 (6)
C17B0.8942 (19)0.5707 (7)0.4540 (9)0.033 (3)*0.235 (6)
H17C0.97060.55040.40820.040*0.235 (6)
H17D0.93750.55050.51410.040*0.235 (6)
C18A0.7815 (6)0.5150 (2)0.4155 (2)0.0320 (10)0.765 (6)
H18A0.89450.50270.39320.038*0.765 (6)
C18B0.7029 (16)0.5471 (6)0.4311 (7)0.019 (2)*0.235 (6)
H18B0.60540.57720.44470.023*0.235 (6)
C19A0.6328 (11)0.4744 (4)0.3864 (4)0.0318 (13)0.765 (6)
H19A0.51720.48500.40710.038*0.765 (6)
H19B0.64560.43590.34560.038*0.765 (6)
C19B0.669 (4)0.4866 (14)0.3933 (19)0.038 (7)*0.235 (6)
H19C0.76580.45620.37960.045*0.235 (6)
H19D0.54630.47200.37910.045*0.235 (6)
C220.2827 (4)0.54435 (13)0.07774 (17)0.0227 (5)
C250.5102 (4)0.46214 (14)0.14025 (18)0.0247 (5)
C27A0.0483 (5)0.65593 (18)0.1045 (3)0.0288 (9)0.794 (7)
H27A0.07630.67450.08980.035*0.794 (7)
H27B0.05390.63530.16670.035*0.794 (7)
C27B0.0940 (17)0.6732 (6)0.0521 (8)0.020 (3)*0.206 (7)
H27C0.18160.69830.01590.024*0.206 (7)
H27D0.02810.69270.03360.024*0.206 (7)
C28A0.1794 (5)0.71578 (19)0.1038 (3)0.0298 (9)0.794 (7)
H28A0.22560.72690.04710.036*0.794 (7)
C28B0.1379 (17)0.6907 (7)0.1468 (9)0.021 (3)*0.206 (7)
H28B0.10720.65910.19360.025*0.206 (7)
C29A0.2400 (13)0.7564 (4)0.1775 (7)0.0273 (14)0.794 (7)
H29A0.19750.74720.23560.033*0.794 (7)
H29B0.32440.79380.17050.033*0.794 (7)
C29B0.220 (6)0.750 (2)0.167 (3)0.047 (13)*0.206 (7)
H29C0.25030.78170.11970.057*0.206 (7)
H29D0.25010.76290.22910.057*0.206 (7)
O110.9655 (3)0.52030 (11)0.22839 (16)0.0409 (5)
O120.9797 (3)0.40739 (11)0.25601 (18)0.0424 (6)
O131.2039 (3)0.47483 (12)0.30109 (17)0.0440 (6)
N11.0495 (3)0.46788 (13)0.26096 (17)0.0291 (5)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cu1A0.0284 (5)0.0246 (5)0.0226 (3)0.0032 (3)0.0014 (3)0.0019 (3)
Cu1B0.0236 (14)0.0197 (12)0.0243 (10)0.0019 (9)0.0010 (9)0.0013 (8)
Cu2A0.0269 (4)0.0242 (4)0.0322 (6)0.0001 (3)0.0019 (4)0.0069 (4)
Cu2B0.0211 (14)0.0241 (13)0.0210 (17)0.0010 (10)0.0004 (11)0.0033 (12)
S110.0330 (4)0.0402 (4)0.0290 (3)0.0121 (3)0.0033 (3)0.0092 (3)
S12A0.0342 (7)0.0434 (10)0.0260 (5)0.0039 (7)0.0083 (4)0.0001 (6)
S210.0265 (3)0.0213 (3)0.0293 (3)0.0002 (3)0.0021 (3)0.0018 (2)
S220.0271 (4)0.0277 (3)0.0331 (4)0.0004 (3)0.0067 (3)0.0001 (3)
O10.0697 (19)0.0507 (15)0.0515 (15)0.0236 (14)0.0268 (14)0.0185 (12)
O210.0516 (15)0.0365 (12)0.0335 (11)0.0071 (11)0.0034 (10)0.0053 (9)
O220.0520 (14)0.0264 (10)0.0363 (11)0.0083 (10)0.0056 (10)0.0030 (9)
O230.0761 (19)0.0342 (12)0.0280 (11)0.0094 (12)0.0078 (11)0.0015 (9)
N20.0456 (16)0.0268 (12)0.0243 (11)0.0089 (11)0.0054 (10)0.0010 (9)
N120.0432 (16)0.0323 (13)0.0317 (13)0.0092 (12)0.0027 (11)0.0041 (11)
N130.0279 (12)0.0348 (12)0.0213 (10)0.0054 (10)0.0026 (9)0.0019 (9)
N140.0284 (12)0.0280 (11)0.0230 (10)0.0042 (10)0.0036 (9)0.0031 (9)
N220.0272 (13)0.0253 (12)0.0369 (13)0.0026 (10)0.0036 (10)0.0005 (10)
N230.0221 (11)0.0249 (11)0.0222 (10)0.0015 (9)0.0009 (8)0.0007 (8)
N240.0241 (11)0.0251 (11)0.0217 (10)0.0017 (9)0.0002 (8)0.0004 (8)
C120.0288 (14)0.0427 (17)0.0242 (13)0.0068 (13)0.0035 (11)0.0044 (12)
C150.0289 (14)0.0322 (14)0.0261 (13)0.0061 (12)0.0075 (11)0.0064 (11)
C17A0.035 (2)0.034 (2)0.0250 (18)0.0057 (17)0.0033 (15)0.0022 (15)
C18A0.037 (2)0.036 (2)0.0227 (17)0.0091 (19)0.0003 (15)0.0018 (15)
C19A0.048 (4)0.024 (2)0.022 (2)0.003 (3)0.001 (2)0.0059 (17)
C220.0237 (13)0.0209 (11)0.0233 (12)0.0004 (10)0.0005 (9)0.0007 (9)
C250.0242 (13)0.0254 (12)0.0249 (12)0.0006 (11)0.0037 (10)0.0017 (10)
C27A0.0245 (17)0.0233 (16)0.039 (2)0.0042 (14)0.0035 (15)0.0003 (14)
C28A0.0298 (19)0.0235 (17)0.037 (2)0.0039 (15)0.0055 (15)0.0001 (15)
C29A0.027 (3)0.019 (2)0.036 (3)0.0021 (18)0.003 (2)0.008 (2)
O110.0340 (12)0.0339 (11)0.0556 (14)0.0059 (10)0.0085 (10)0.0185 (10)
O120.0344 (12)0.0255 (10)0.0654 (16)0.0004 (9)0.0067 (11)0.0016 (10)
O130.0293 (12)0.0375 (12)0.0633 (16)0.0031 (10)0.0071 (11)0.0079 (11)
N10.0244 (12)0.0280 (12)0.0355 (13)0.0025 (10)0.0068 (10)0.0038 (10)
Geometric parameters (Å, º) top
Cu1A—N132.045 (3)N13—C121.299 (4)
Cu1A—N241.962 (2)N14—C151.314 (4)
Cu1A—C18A2.054 (4)N22—H22A0.85 (4)
Cu1A—C19A2.039 (6)N22—H22B0.82 (3)
Cu1B—Cu2B3.009 (7)N22—C251.328 (4)
Cu1B—O12.363 (7)N23—N241.389 (3)
Cu1B—N131.838 (4)N23—C221.297 (3)
Cu1B—N242.038 (4)N24—C251.316 (3)
Cu1B—C18B2.019 (11)C17A—H17A0.9900
Cu1B—C19B2.05 (3)C17A—H17B0.9900
Cu2A—N141.974 (3)C17A—C18A1.480 (6)
Cu2A—N231.998 (3)C17B—H17C0.9900
Cu2A—C28A2.062 (4)C17B—H17D0.9900
Cu2A—C29A2.052 (8)C17B—C18B1.490 (17)
Cu2B—O12.341 (7)C18A—H18A0.9500
Cu2B—N142.029 (6)C18A—C19A1.374 (9)
Cu2B—N231.962 (6)C18B—H18B0.9500
Cu2B—C28B2.028 (13)C18B—C19B1.28 (3)
Cu2B—C29B2.02 (5)C19A—H19A0.9500
S11—C121.736 (3)C19A—H19B0.9500
S11—C151.746 (3)C19B—H19C0.9500
S12A—C121.779 (3)C19B—H19D0.9500
S12A—C17A1.819 (4)C27A—H27A0.9900
S12B—C121.596 (7)C27A—H27B0.9900
S12B—C17B1.823 (14)C27A—C28A1.484 (5)
S21—C221.741 (3)C27B—H27C0.9900
S21—C251.739 (3)C27B—H27D0.9900
S22—C221.731 (3)C27B—C28B1.441 (17)
S22—C27A1.859 (4)C28A—H28A0.9500
S22—C27B1.721 (12)C28A—C29A1.369 (11)
O1—H1A0.93 (5)C28B—H28B0.9500
O1—H1B0.99 (5)C28B—C29B1.30 (4)
O21—N21.246 (3)C29A—H29A0.9500
O22—N21.256 (3)C29A—H29B0.9500
O23—N21.244 (3)C29B—H29C0.9500
N12—H12A0.93 (4)C29B—H29D0.9500
N12—H12B0.84 (4)O11—N11.238 (3)
N12—C151.324 (4)O12—N11.247 (3)
N13—N141.389 (3)O13—N11.245 (3)
N13—Cu1A—C18A100.70 (14)N13—C12—S12A125.1 (2)
N24—Cu1A—N13110.12 (11)N13—C12—S12B135.4 (3)
N24—Cu1A—C18A148.79 (15)N12—C15—S11122.3 (2)
N24—Cu1A—C19A111.3 (2)N14—C15—S11113.1 (2)
C19A—Cu1A—N13131.7 (2)N14—C15—N12124.6 (3)
C19A—Cu1A—C18A39.2 (2)S12A—C17A—H17A108.8
O1—Cu1B—Cu2B49.91 (17)S12A—C17A—H17B108.8
N13—Cu1B—Cu2B66.50 (19)H17A—C17A—H17B107.7
N13—Cu1B—O190.2 (2)C18A—C17A—S12A113.8 (3)
N13—Cu1B—N24115.78 (19)C18A—C17A—H17A108.8
N13—Cu1B—C18B94.8 (3)C18A—C17A—H17B108.8
N13—Cu1B—C19B129.1 (7)S12B—C17B—H17C108.4
N24—Cu1B—Cu2B66.39 (16)S12B—C17B—H17D108.4
N24—Cu1B—O191.02 (19)H17C—C17B—H17D107.5
N24—Cu1B—C19B112.0 (7)C18B—C17B—S12B115.4 (10)
C18B—Cu1B—Cu2B138.4 (4)C18B—C17B—H17C108.4
C18B—Cu1B—O196.1 (4)C18B—C17B—H17D108.4
C18B—Cu1B—N24148.6 (4)Cu1A—C18A—H18A92.3
C18B—Cu1B—C19B36.7 (7)C17A—C18A—Cu1A108.0 (3)
C19B—Cu1B—Cu2B154.4 (8)C17A—C18A—H18A117.3
C19B—Cu1B—O1105.9 (8)C19A—C18A—Cu1A69.8 (3)
N14—Cu2A—N23111.13 (12)C19A—C18A—C17A125.4 (5)
N14—Cu2A—C28A146.92 (15)C19A—C18A—H18A117.3
N14—Cu2A—C29A110.2 (3)Cu1B—C18B—H18B87.4
N23—Cu2A—C28A101.74 (14)C17B—C18B—Cu1B109.9 (8)
N23—Cu2A—C29A132.6 (3)C17B—C18B—H18B119.7
C29A—Cu2A—C28A38.9 (3)C19B—C18B—Cu1B72.8 (14)
O1—Cu2B—Cu1B50.57 (17)C19B—C18B—C17B120.6 (17)
N14—Cu2B—Cu1B62.64 (17)C19B—C18B—H18B119.7
N14—Cu2B—O194.6 (2)Cu1A—C19A—H19A106.2
N23—Cu2B—Cu1B64.95 (19)Cu1A—C19A—H19B92.7
N23—Cu2B—O184.9 (3)C18A—C19A—Cu1A71.0 (3)
N23—Cu2B—N14110.3 (3)C18A—C19A—H19A120.0
N23—Cu2B—C28B95.9 (4)C18A—C19A—H19B120.0
N23—Cu2B—C29B131.6 (13)H19A—C19A—H19B120.0
C28B—Cu2B—Cu1B138.0 (5)Cu1B—C19B—H19C110.8
C28B—Cu2B—O193.0 (4)Cu1B—C19B—H19D88.8
C28B—Cu2B—N14153.3 (5)C18B—C19B—Cu1B70.4 (13)
C29B—Cu2B—Cu1B152.5 (15)C18B—C19B—H19C120.0
C29B—Cu2B—O1104.5 (15)C18B—C19B—H19D120.0
C29B—Cu2B—N14115.9 (13)H19C—C19B—H19D120.0
C29B—Cu2B—C28B37.4 (13)S22—C22—S21119.80 (15)
C12—S11—C1587.41 (14)N23—C22—S21113.1 (2)
C12—S12A—C17A101.29 (17)N23—C22—S22127.1 (2)
C12—S12B—C17B98.6 (5)N22—C25—S21122.0 (2)
C25—S21—C2287.44 (13)N24—C25—S21113.6 (2)
C22—S22—C27A100.77 (15)N24—C25—N22124.4 (3)
C27B—S22—C22108.4 (4)S22—C27A—H27A109.0
Cu1B—O1—H1A107 (3)S22—C27A—H27B109.0
Cu1B—O1—H1B121 (3)H27A—C27A—H27B107.8
Cu2B—O1—Cu1B79.52 (18)C28A—C27A—S22112.7 (3)
Cu2B—O1—H1A124 (3)C28A—C27A—H27A109.0
Cu2B—O1—H1B118 (3)C28A—C27A—H27B109.0
H1A—O1—H1B106 (4)S22—C27B—H27C107.9
O21—N2—O22120.5 (2)S22—C27B—H27D107.9
O23—N2—O21120.3 (2)H27C—C27B—H27D107.2
O23—N2—O22119.2 (3)C28B—C27B—S22117.8 (10)
H12A—N12—H12B124 (3)C28B—C27B—H27C107.9
C15—N12—H12A119 (2)C28B—C27B—H27D107.9
C15—N12—H12B116 (2)Cu2A—C28A—H28A92.5
N14—N13—Cu1A120.13 (17)C27A—C28A—Cu2A107.4 (2)
N14—N13—Cu1B116.2 (2)C27A—C28A—H28A117.0
C12—N13—Cu1A126.3 (2)C29A—C28A—Cu2A70.2 (4)
C12—N13—Cu1B130.0 (2)C29A—C28A—C27A125.9 (5)
C12—N13—N14113.3 (2)C29A—C28A—H28A117.0
N13—N14—Cu2A120.19 (18)Cu2B—C28B—H28B88.9
N13—N14—Cu2B110.5 (2)C27B—C28B—Cu2B110.3 (9)
C15—N14—Cu2A124.1 (2)C27B—C28B—H28B120.6
C15—N14—Cu2B129.1 (3)C29B—C28B—Cu2B71 (2)
C15—N14—N13112.5 (2)C29B—C28B—C27B119 (3)
H22A—N22—H22B124 (3)C29B—C28B—H28B120.6
C25—N22—H22A118 (2)Cu2A—C29A—H29A105.7
C25—N22—H22B118 (2)Cu2A—C29A—H29B93.2
N24—N23—Cu2A120.41 (17)C28A—C29A—Cu2A71.0 (4)
N24—N23—Cu2B117.4 (2)C28A—C29A—H29A120.0
C22—N23—Cu2A125.57 (19)C28A—C29A—H29B120.0
C22—N23—Cu2B127.8 (2)H29A—C29A—H29B120.0
C22—N23—N24113.9 (2)Cu2B—C29B—H29C110.2
N23—N24—Cu1A121.87 (17)Cu2B—C29B—H29D88.2
N23—N24—Cu1B108.7 (2)C28B—C29B—Cu2B72 (2)
C25—N24—Cu1A123.76 (19)C28B—C29B—H29C120.0
C25—N24—Cu1B133.5 (2)C28B—C29B—H29D120.0
C25—N24—N23111.8 (2)H29C—C29B—H29D120.0
S11—C12—S12A121.24 (18)O11—N1—O12120.7 (3)
S12B—C12—S11110.1 (3)O11—N1—O13120.6 (3)
N13—C12—S11113.6 (2)O13—N1—O12118.7 (2)
Cu1A—N13—N14—Cu2A29.4 (3)N23—N24—C25—S213.1 (3)
Cu1A—N13—N14—C15169.9 (2)N23—N24—C25—N22177.7 (3)
Cu1A—N13—C12—S11170.37 (15)N24—Cu1B—N13—N1430.0 (4)
Cu1A—N13—C12—S12A10.5 (4)N24—Cu1B—N13—C12159.7 (3)
Cu1A—N24—C25—S21159.03 (15)N24—N23—C22—S214.0 (3)
Cu1A—N24—C25—N2220.2 (4)N24—N23—C22—S22175.27 (19)
Cu1B—N13—N14—Cu2B23.5 (3)C12—S11—C15—N12179.7 (3)
Cu1B—N13—N14—C15175.6 (3)C12—S11—C15—N141.2 (2)
Cu1B—N13—C12—S11173.2 (3)C12—S12A—C17A—C18A75.0 (3)
Cu1B—N13—C12—S12B5.7 (6)C12—S12B—C17B—C18B55.7 (10)
Cu1B—N24—C25—S21145.9 (3)C12—N13—N14—Cu2A157.0 (2)
Cu1B—N24—C25—N2233.3 (5)C12—N13—N14—Cu2B148.3 (3)
Cu2A—N14—C15—S11156.82 (16)C12—N13—N14—C153.7 (3)
Cu2A—N14—C15—N1222.3 (4)C15—S11—C12—S12A178.2 (2)
Cu2A—N23—N24—Cu1A26.1 (3)C15—S11—C12—S12B169.8 (3)
Cu2A—N23—N24—C25171.39 (19)C15—S11—C12—N130.9 (2)
Cu2A—N23—C22—S21171.75 (15)C17A—S12A—C12—S11151.7 (2)
Cu2A—N23—C22—S229.0 (4)C17A—S12A—C12—N1327.3 (3)
Cu2B—Cu1B—N13—N1416.0 (2)C17A—C18A—C19A—Cu1A98.2 (4)
Cu2B—Cu1B—N13—C12154.3 (3)C17B—S12B—C12—S11172.0 (5)
Cu2B—N14—C15—S11142.6 (3)C17B—S12B—C12—N1320.1 (8)
Cu2B—N14—C15—N1236.5 (5)C17B—C18B—C19B—Cu1B103.3 (13)
Cu2B—N23—N24—Cu1B17.8 (3)C18B—Cu1B—N13—N14157.4 (4)
Cu2B—N23—N24—C25174.6 (3)C18B—Cu1B—N13—C1212.8 (5)
Cu2B—N23—C22—S21172.7 (3)C19B—Cu1B—N13—N14172.0 (11)
Cu2B—N23—C22—S226.5 (4)C19B—Cu1B—N13—C121.8 (12)
S12A—C17A—C18A—Cu1A71.1 (3)C22—S21—C25—N22180.0 (3)
S12A—C17A—C18A—C19A148.7 (4)C22—S21—C25—N240.8 (2)
S12B—C17B—C18B—Cu1B72.2 (11)C22—S22—C27A—C28A74.8 (3)
S12B—C17B—C18B—C19B153.6 (17)C22—S22—C27B—C28B43.0 (11)
S22—C27A—C28A—Cu2A69.4 (3)C22—N23—N24—Cu1A157.90 (19)
S22—C27A—C28A—C29A147.2 (5)C22—N23—N24—Cu1B152.1 (2)
S22—C27B—C28B—Cu2B69.6 (12)C22—N23—N24—C254.6 (3)
S22—C27B—C28B—C29B148 (3)C25—S21—C22—S22177.47 (18)
O1—Cu1B—N13—N1461.2 (2)C25—S21—C22—N231.9 (2)
O1—Cu1B—N13—C12109.0 (3)C27A—S22—C22—S21150.13 (18)
N13—N14—C15—S113.0 (3)C27A—S22—C22—N2329.1 (3)
N13—N14—C15—N12177.9 (3)C27A—C28A—C29A—Cu2A97.5 (4)
N14—N13—C12—S112.8 (3)C27B—S22—C22—S21179.8 (5)
N14—N13—C12—S12A176.3 (2)C27B—S22—C22—N230.5 (5)
N14—N13—C12—S12B164.8 (4)C27B—C28B—C29B—Cu2B103.2 (17)
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
O1—H1A···O13i0.93 (5)2.01 (5)2.846 (4)149 (4)
O1—H1B···O22ii0.99 (5)2.29 (5)3.142 (4)143 (4)
O1—H1B···O23ii0.99 (5)2.25 (5)2.946 (3)126 (3)
O1—H1B···N2ii0.99 (5)2.63 (5)3.453 (4)140 (4)
N12—H12A···O12iii0.93 (4)2.26 (4)3.038 (4)141 (3)
N12—H12A···O13iii0.93 (4)2.16 (4)3.053 (4)161 (3)
N12—H12A···N1iii0.93 (4)2.56 (4)3.475 (4)169 (3)
N12—H12B···O220.84 (4)2.09 (4)2.918 (4)166 (3)
N22—H22A···O120.85 (4)2.07 (4)2.895 (4)163 (3)
N22—H22B···O23iv0.82 (3)2.07 (3)2.856 (3)162 (3)
C17A—H17A···O13v0.992.403.369 (5)167
C17A—H17B···O22ii0.992.293.175 (5)149
C18A—H18A···O110.952.543.170 (5)124
C18A—H18A···N10.952.433.258 (5)146
C18B—H18B···O10.952.663.268 (12)123
C18B—H18B···O22ii0.952.543.417 (12)154
C27A—H27B···O11i0.992.453.219 (4)134
C27B—H27C···N20.992.593.540 (13)160
C27B—H27D···S11vi0.993.013.581 (12)118
C27B—H27D···S12Bvi0.992.873.487 (14)121
C28A—H28A···O220.952.513.226 (5)133
C28A—H28A···N20.952.373.204 (5)147
C28B—H28B···O10.952.573.175 (13)122
Symmetry codes: (i) x1, y, z; (ii) x, y+3/2, z+1/2; (iii) x+2, y+1/2, z+1/2; (iv) x+1, y+1, z; (v) x+2, y+1, z+1; (vi) x1, y+3/2, z1/2.
(4) µ-Aqua-(hexafluorosilicato)bis{µ-5-[(prop-2-en-1-yl)sulfanyl]-1,3,4-thiadiazol-2-amine}dicopper(I) acetonitrile hemisolvate dihydrate top
Crystal data top
[Cu2(SiF6)(C5H7N3S2)2(H2O)]·0.5C2H3N·2H2OF(000) = 1380
Mr = 688.24Dx = 1.942 Mg m3
Monoclinic, P21/nMo Kα radiation, λ = 0.71073 Å
a = 11.899 (4) ÅCell parameters from 9071 reflections
b = 11.442 (4) Åθ = 2.9–36.8°
c = 17.678 (5) ŵ = 2.29 mm1
β = 102.04 (3)°T = 260 K
V = 2353.9 (13) Å3Prism, clear colourless
Z = 40.52 × 0.17 × 0.09 mm
Data collection top
Rigaku Xcalibur Sapphire2 (large Be window)
diffractometer
5649 independent reflections
Radiation source: Enhance (Mo) X-ray Source3717 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.053
Detector resolution: 8.3359 pixels mm-1θmax = 28.0°, θmin = 2.9°
ω scansh = 1515
Absorption correction: analytical
[CrysAlis PRO (Rigaku OD, 2015), based on expressions derived by Clark & Reid (1995)]
k = 1512
Tmin = 0.452, Tmax = 0.825l = 2323
24572 measured reflections
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.037H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.087 w = 1/[σ2(Fo2) + (0.042P)2]
where P = (Fo2 + 2Fc2)/3
S = 1.02(Δ/σ)max = 0.001
5649 reflectionsΔρmax = 0.47 e Å3
412 parametersΔρmin = 0.38 e Å3
245 restraints
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
C120.3873 (2)1.0688 (2)0.07294 (15)0.0321 (6)
C150.4799 (2)0.9721 (2)0.16465 (16)0.0305 (6)
C220.3561 (3)0.5332 (2)0.05978 (17)0.0357 (7)
C250.3182 (3)0.6313 (2)0.05172 (16)0.0353 (7)
Cu10.26289 (3)0.86456 (3)0.02532 (2)0.03965 (12)
N120.5426 (2)0.9414 (3)0.21542 (17)0.0434 (7)
H12A0.562 (3)0.869 (3)0.211 (2)0.052*
H12B0.590 (3)0.987 (3)0.230 (2)0.052*
N130.36247 (19)0.9572 (2)0.08057 (13)0.0312 (5)
N140.4136 (2)0.9013 (2)0.13454 (13)0.0320 (5)
N220.2988 (3)0.6624 (3)0.12019 (16)0.0537 (8)
H22A0.288 (3)0.737 (3)0.139 (2)0.064*
H22B0.288 (3)0.609 (3)0.150 (2)0.064*
N230.3555 (2)0.6453 (2)0.06740 (13)0.0327 (5)
N240.3312 (2)0.7043 (2)0.00340 (12)0.0338 (5)
O10.1575 (2)0.7886 (2)0.14329 (14)0.0535 (6)
H1A0.13170.71550.13710.080*
H1B0.09550.83360.16200.080*
O20.0394 (2)0.9116 (3)0.15841 (17)0.0727 (8)
H2A0.07130.96070.19400.109*
H2B0.08440.85160.15830.109*
S110.47951 (7)1.11532 (6)0.13071 (4)0.03665 (18)
S120.33947 (8)1.16900 (7)0.01339 (5)0.0477 (2)
S210.33098 (8)0.48476 (7)0.02800 (5)0.0456 (2)
C17A0.2451 (6)1.0907 (5)0.0365 (4)0.0449 (17)0.617 (10)
H17A0.19951.14800.05720.054*0.617 (10)
H17B0.29261.05100.08020.054*0.617 (10)
C18A0.1651 (5)1.0035 (4)0.0071 (4)0.0404 (17)0.617 (10)
H18A0.13921.01300.06010.048*0.617 (10)
C19A0.1303 (15)0.9146 (16)0.0265 (11)0.054 (5)0.617 (10)
H19A0.15550.90410.07950.065*0.617 (10)
H19B0.08000.86110.00220.065*0.617 (10)
C27A0.4091 (3)0.5095 (3)0.2051 (2)0.0449 (9)0.88
H27A0.41370.45580.24680.054*0.88
H27B0.48410.54530.18880.054*0.88
C28A0.3229 (4)0.6045 (3)0.2367 (2)0.0415 (9)0.88
H28A0.24850.59990.22820.050*0.88
C29A0.3530 (8)0.6966 (5)0.2773 (4)0.0501 (19)0.88
H29A0.42720.70190.28600.060*0.88
H29B0.29930.75420.29620.060*0.88
Cu2A0.36197 (18)0.7398 (3)0.1618 (2)0.0345 (4)0.88
S22A0.37812 (15)0.42713 (12)0.12585 (9)0.0447 (3)0.88
C17B0.2026 (9)1.1074 (8)0.0012 (7)0.042 (3)*0.383 (10)
H17C0.15551.09320.05210.051*0.383 (10)
H17D0.16351.16570.02370.051*0.383 (10)
C18B0.2086 (7)0.9980 (7)0.0438 (6)0.034 (2)*0.383 (10)
H18B0.26870.99270.08670.041*0.383 (10)
C19B0.135 (2)0.902 (3)0.0297 (15)0.034 (5)*0.383 (10)
H19C0.07380.90210.01240.041*0.383 (10)
H19D0.14820.83750.06250.041*0.383 (10)
C27B0.298 (3)0.510 (3)0.2236 (19)0.065 (9)*0.12
H27C0.22420.54570.22370.078*0.12
H27D0.28660.45360.26550.078*0.12
C28B0.376 (2)0.603 (2)0.2419 (15)0.027 (6)*0.12
H28B0.45330.58380.23530.032*0.12
C29B0.345 (4)0.712 (2)0.267 (3)0.018 (8)*0.12
H29C0.26840.73560.27480.022*0.12
H29D0.40010.76450.27720.022*0.12
Cu2B0.3927 (13)0.736 (2)0.1605 (14)0.033 (3)0.12
S22B0.3398 (9)0.4323 (12)0.1362 (7)0.035 (3)*0.12
F10.62718 (17)0.70348 (17)0.16507 (10)0.0531 (5)
F20.81507 (19)0.63711 (17)0.27744 (12)0.0641 (6)
Si10.72257 (8)0.67000 (7)0.21978 (5)0.0384 (2)
F3A0.7269 (6)0.8125 (4)0.2448 (4)0.0351 (13)*0.428 (3)
F5A0.7214 (8)0.5319 (4)0.1966 (4)0.0492 (14)*0.428 (3)
F6A0.6161 (5)0.6498 (7)0.2977 (3)0.0509 (17)*0.428 (3)
F3B0.7584 (8)0.8120 (5)0.2227 (6)0.0309 (19)*0.288 (3)
F4B0.8174 (7)0.6539 (12)0.1374 (4)0.055 (3)*0.288 (3)
F5B0.6735 (9)0.5315 (5)0.2150 (6)0.0382 (18)*0.288 (3)
F6B0.6144 (7)0.6912 (11)0.2998 (4)0.047 (2)*0.288 (3)
F3C0.7978 (15)0.7868 (13)0.1936 (11)0.069 (4)*0.168 (3)
F4C0.8099 (11)0.5889 (17)0.1521 (8)0.052 (3)*0.168 (3)
F5C0.6468 (12)0.5443 (11)0.2502 (12)0.060 (4)*0.168 (3)
F6C0.6360 (12)0.7418 (14)0.2924 (6)0.038 (3)*0.168 (3)
F3D0.8290 (15)0.7443 (19)0.1626 (12)0.065 (6)*0.116 (3)
F4D0.7765 (17)0.5445 (12)0.1737 (9)0.023 (3)*0.116 (3)
F5D0.6264 (15)0.590 (2)0.2817 (12)0.063 (6)*0.116 (3)
F6D0.6817 (17)0.7901 (13)0.2728 (10)0.026 (3)*0.116 (3)
C20.0535 (7)0.4794 (9)0.0952 (6)0.075 (3)0.5
C30.001 (3)0.379 (2)0.0769 (18)0.100 (11)0.5
H3A0.07220.37020.11110.150*0.5
H3B0.04870.31270.08210.150*0.5
H3C0.00880.38370.02450.150*0.5
N10.0887 (8)0.5623 (9)0.1155 (6)0.089 (3)0.5
F4A0.8329 (5)0.6949 (7)0.1425 (4)0.0542 (16)*0.428 (3)
O40.011 (2)0.3481 (18)0.0721 (15)0.097 (5)0.5
O30.0385 (6)0.6046 (6)0.0816 (4)0.0777 (18)0.5
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
C120.0349 (16)0.0308 (15)0.0307 (14)0.0005 (13)0.0069 (13)0.0024 (12)
C150.0343 (15)0.0247 (14)0.0316 (14)0.0003 (12)0.0047 (12)0.0031 (11)
C220.0451 (17)0.0271 (15)0.0377 (15)0.0006 (13)0.0149 (14)0.0005 (12)
C250.0465 (18)0.0282 (15)0.0332 (15)0.0027 (13)0.0129 (13)0.0012 (12)
Cu10.0469 (2)0.0295 (2)0.0491 (2)0.00365 (17)0.02508 (18)0.00394 (16)
N120.0483 (17)0.0327 (15)0.0571 (17)0.0018 (13)0.0290 (14)0.0010 (13)
N130.0350 (13)0.0281 (12)0.0327 (12)0.0019 (10)0.0120 (10)0.0006 (10)
N140.0357 (13)0.0273 (12)0.0361 (13)0.0011 (10)0.0148 (11)0.0008 (10)
N220.089 (2)0.0409 (17)0.0393 (15)0.0028 (17)0.0326 (16)0.0034 (13)
N230.0425 (14)0.0260 (12)0.0313 (12)0.0015 (11)0.0114 (11)0.0010 (10)
N240.0448 (15)0.0319 (13)0.0266 (11)0.0006 (11)0.0118 (11)0.0003 (10)
O10.0438 (13)0.0496 (14)0.0677 (15)0.0009 (11)0.0130 (12)0.0152 (12)
O20.0505 (16)0.098 (2)0.0692 (18)0.0040 (15)0.0127 (14)0.0034 (17)
S110.0417 (4)0.0286 (4)0.0427 (4)0.0049 (3)0.0160 (3)0.0023 (3)
S120.0672 (6)0.0310 (4)0.0514 (5)0.0026 (4)0.0274 (4)0.0090 (3)
S210.0727 (6)0.0275 (4)0.0417 (4)0.0013 (4)0.0237 (4)0.0058 (3)
C17A0.047 (4)0.053 (4)0.040 (3)0.004 (3)0.020 (3)0.010 (3)
C18A0.040 (3)0.042 (3)0.045 (4)0.011 (2)0.019 (3)0.004 (2)
C19A0.056 (6)0.055 (8)0.063 (7)0.024 (4)0.041 (4)0.008 (4)
C27A0.066 (3)0.0340 (19)0.0399 (19)0.0042 (18)0.0238 (19)0.0056 (15)
C28A0.044 (3)0.048 (2)0.0343 (19)0.010 (2)0.0116 (19)0.0099 (16)
C29A0.070 (4)0.052 (3)0.031 (3)0.004 (3)0.018 (2)0.009 (2)
Cu2A0.0476 (11)0.0274 (4)0.0305 (4)0.0023 (8)0.0126 (8)0.0006 (3)
S22A0.0631 (11)0.0244 (6)0.0524 (8)0.0018 (7)0.0253 (8)0.0050 (5)
Cu2B0.041 (7)0.032 (3)0.027 (2)0.002 (5)0.007 (5)0.0004 (19)
F10.0664 (13)0.0538 (12)0.0482 (10)0.0033 (10)0.0328 (10)0.0035 (9)
F20.0802 (15)0.0500 (12)0.0762 (14)0.0223 (11)0.0487 (12)0.0078 (10)
Si10.0500 (5)0.0294 (4)0.0402 (4)0.0016 (4)0.0193 (4)0.0037 (3)
C20.048 (5)0.087 (7)0.087 (6)0.002 (5)0.007 (4)0.034 (6)
C30.15 (2)0.070 (16)0.084 (12)0.057 (16)0.034 (12)0.023 (11)
N10.074 (6)0.075 (6)0.119 (8)0.029 (5)0.021 (5)0.012 (6)
O40.115 (10)0.059 (8)0.127 (9)0.003 (7)0.051 (7)0.013 (6)
O30.070 (4)0.067 (4)0.093 (5)0.008 (3)0.011 (4)0.013 (4)
Geometric parameters (Å, º) top
C12—N131.311 (4)C28A—H28A0.9300
C12—S111.731 (3)C28A—C29A1.364 (6)
C12—S121.731 (3)C28A—Cu2A2.027 (5)
C15—N121.328 (4)C29A—H29A0.9300
C15—N141.319 (3)C29A—H29B0.9300
C15—S111.745 (3)C29A—Cu2A2.082 (7)
C22—N231.289 (4)C17B—H17C0.9700
C22—S211.732 (3)C17B—H17D0.9700
C22—S22A1.742 (3)C17B—C18B1.476 (15)
C22—S22B1.757 (13)C18B—H18B0.9300
C25—N221.328 (4)C18B—C19B1.39 (3)
C25—N241.317 (3)C19B—H19C0.9300
C25—S211.742 (3)C19B—H19D0.9300
Cu1—N131.991 (2)C27B—H27C0.9700
Cu1—N242.010 (2)C27B—H27D0.9700
Cu1—O12.364 (3)C27B—C28B1.487 (18)
Cu1—C18A2.035 (5)C27B—S22B1.76 (3)
Cu1—C19A2.064 (18)C28B—H28B0.9300
Cu1—C18B2.138 (8)C28B—C29B1.358 (18)
Cu1—C19B2.01 (3)C28B—Cu2B2.08 (4)
N12—H12A0.86 (3)C29B—H29C0.9300
N12—H12B0.86 (4)C29B—H29D0.9300
N13—N141.389 (3)C29B—Cu2B1.87 (5)
N14—Cu2A1.975 (4)F1—Si11.682 (2)
N14—Cu2B1.95 (3)F2—Si11.691 (2)
N22—H22A0.93 (4)Si1—F3A1.693 (4)
N22—H22B0.83 (4)Si1—F5A1.633 (4)
N23—N241.399 (3)Si1—F6A1.682 (5)
N23—Cu2A2.003 (4)Si1—F3B1.683 (6)
N23—Cu2B2.07 (3)Si1—F4B1.656 (7)
O1—H1A0.9054Si1—F5B1.697 (6)
O1—H1B0.9041Si1—F6B1.719 (7)
O2—H2A0.8695Si1—F3C1.621 (9)
O2—H2B0.8712Si1—F4C1.689 (9)
S12—C17A1.804 (6)Si1—F5C1.723 (9)
S12—C17B1.828 (10)Si1—F6C1.682 (8)
C17A—H17A0.9700Si1—F3D1.678 (11)
C17A—H17B0.9700Si1—F4D1.709 (9)
C17A—C18A1.480 (9)Si1—F5D1.681 (10)
C18A—H18A0.9300Si1—F6D1.677 (9)
C18A—C19A1.29 (2)Si1—F4A1.710 (5)
C19A—H19A0.9300C2—C31.38 (3)
C19A—H19B0.9300C2—N11.126 (12)
C27A—H27A0.9700C3—H3A0.9600
C27A—H27B0.9700C3—H3B0.9600
C27A—C28A1.519 (5)C3—H3C0.9600
C27A—S22A1.790 (4)
N13—C12—S11113.3 (2)H17C—C17B—H17D107.3
N13—C12—S12127.7 (2)C18B—C17B—S12116.5 (8)
S12—C12—S11118.98 (17)C18B—C17B—H17C108.2
N12—C15—S11121.6 (2)C18B—C17B—H17D108.2
N14—C15—N12125.3 (3)Cu1—C18B—H18B98.5
N14—C15—S11113.1 (2)C17B—C18B—Cu1106.5 (6)
N23—C22—S21114.4 (2)C17B—C18B—H18B116.0
N23—C22—S22A128.4 (2)C19B—C18B—Cu165.6 (12)
N23—C22—S22B125.2 (5)C19B—C18B—C17B128.0 (14)
S21—C22—S22A117.13 (17)C19B—C18B—H18B116.0
S21—C22—S22B117.8 (5)Cu1—C19B—H19C99.3
N22—C25—S21121.2 (2)Cu1—C19B—H19D95.2
N24—C25—N22125.0 (3)C18B—C19B—Cu175.4 (13)
N24—C25—S21113.8 (2)C18B—C19B—H19C120.0
N13—Cu1—N24108.81 (10)C18B—C19B—H19D120.0
N13—Cu1—O191.35 (9)H19C—C19B—H19D120.0
N13—Cu1—C18A94.59 (16)H27C—C27B—H27D107.1
N13—Cu1—C19A131.2 (5)C28B—C27B—H27C107.7
N13—Cu1—C18B100.4 (2)C28B—C27B—H27D107.7
N13—Cu1—C19B135.2 (9)C28B—C27B—S22B118 (2)
N24—Cu1—O187.32 (9)S22B—C27B—H27C107.7
N24—Cu1—C18A154.62 (17)S22B—C27B—H27D107.7
N24—Cu1—C19A118.9 (5)C27B—C28B—H28B116.8
N24—Cu1—C18B134.4 (3)C27B—C28B—Cu2B110 (2)
N24—Cu1—C19B114.6 (9)C29B—C28B—C27B126 (3)
C18A—Cu1—O1102.20 (19)C29B—C28B—H28B116.8
C18A—Cu1—C19A36.6 (6)C29B—C28B—Cu2B62 (2)
C19A—Cu1—O1100.4 (5)Cu2B—C28B—H28B97.7
C18B—Cu1—O1126.8 (3)C28B—C29B—H29C120.0
C19B—Cu1—O1101.0 (6)C28B—C29B—H29D120.0
C19B—Cu1—C18B39.1 (8)C28B—C29B—Cu2B78 (2)
C15—N12—H12A112 (2)H29C—C29B—H29D120.0
C15—N12—H12B123 (2)Cu2B—C29B—H29C100.7
H12A—N12—H12B116 (3)Cu2B—C29B—H29D91.1
C12—N13—Cu1127.76 (19)N14—Cu2B—N23109.7 (12)
C12—N13—N14113.4 (2)N14—Cu2B—C28B149.8 (15)
N14—N13—Cu1118.83 (17)N23—Cu2B—C28B100.2 (13)
C15—N14—N13112.3 (2)C29B—Cu2B—N14111.9 (15)
C15—N14—Cu2A131.2 (2)C29B—Cu2B—N23131.2 (17)
C15—N14—Cu2B124.0 (6)C29B—Cu2B—C28B39.8 (9)
N13—N14—Cu2A116.08 (19)C22—S22B—C27B108.0 (13)
N13—N14—Cu2B123.8 (6)F1—Si1—F2178.11 (12)
C25—N22—H22A129 (2)F1—Si1—F3A89.52 (17)
C25—N22—H22B117 (3)F1—Si1—F6A91.1 (2)
H22A—N22—H22B114 (3)F1—Si1—F3B90.2 (2)
C22—N23—N24113.2 (2)F1—Si1—F5B84.4 (2)
C22—N23—Cu2A128.6 (2)F1—Si1—F6B87.8 (3)
C22—N23—Cu2B125.7 (7)F1—Si1—F4C96.1 (5)
N24—N23—Cu2A117.60 (19)F1—Si1—F5C89.9 (5)
N24—N23—Cu2B121.1 (7)F1—Si1—F6C87.0 (4)
C25—N24—Cu1128.1 (2)F1—Si1—F4D98.5 (4)
C25—N24—N23111.6 (2)F1—Si1—F4A90.0 (2)
N23—N24—Cu1115.34 (16)F2—Si1—F3A89.89 (17)
Cu1—O1—H1A111.4F2—Si1—F5B95.5 (2)
Cu1—O1—H1B110.8F2—Si1—F6B90.3 (3)
H1A—O1—H1B107.4F2—Si1—F5C89.4 (5)
H2A—O2—H2B109.5F2—Si1—F4D82.7 (4)
C12—S11—C1587.83 (14)F2—Si1—F4A91.8 (2)
C12—S12—C17A106.6 (2)F3A—Si1—F4A89.3 (3)
C12—S12—C17B103.3 (3)F5A—Si1—F192.0 (2)
C22—S21—C2587.00 (14)F5A—Si1—F288.7 (2)
S12—C17A—H17A107.7F5A—Si1—F3A178.5 (3)
S12—C17A—H17B107.7F5A—Si1—F6A91.6 (3)
H17A—C17A—H17B107.1F5A—Si1—F4A90.3 (3)
C18A—C17A—S12118.6 (5)F6A—Si1—F287.1 (2)
C18A—C17A—H17A107.7F6A—Si1—F3A88.7 (3)
C18A—C17A—H17B107.7F6A—Si1—F4A177.7 (3)
Cu1—C18A—H18A90.7F3B—Si1—F289.7 (2)
C17A—C18A—Cu1106.4 (4)F3B—Si1—F5B174.2 (4)
C17A—C18A—H18A119.1F3B—Si1—F6B89.4 (4)
C19A—C18A—Cu172.9 (7)F4B—Si1—F186.4 (3)
C19A—C18A—C17A121.7 (10)F4B—Si1—F295.5 (3)
C19A—C18A—H18A119.1F4B—Si1—F3B90.2 (4)
Cu1—C19A—H19A107.2F4B—Si1—F5B91.8 (4)
Cu1—C19A—H19B92.2F4B—Si1—F6B174.2 (5)
C18A—C19A—Cu170.5 (9)F5B—Si1—F6B88.1 (4)
C18A—C19A—H19A120.0F3C—Si1—F192.7 (6)
C18A—C19A—H19B120.0F3C—Si1—F288.0 (6)
H19A—C19A—H19B120.0F3C—Si1—F4C91.7 (5)
H27A—C27A—H27B107.5F3C—Si1—F5C177.4 (8)
C28A—C27A—H27A108.4F3C—Si1—F6C91.7 (5)
C28A—C27A—H27B108.4F4C—Si1—F285.6 (5)
C28A—C27A—S22A115.5 (3)F4C—Si1—F5C88.1 (5)
S22A—C27A—H27A108.4F6C—Si1—F291.2 (4)
S22A—C27A—H27B108.4F6C—Si1—F4C175.3 (6)
C27A—C28A—H28A119.5F6C—Si1—F5C88.4 (5)
C27A—C28A—Cu2A105.2 (3)F3D—Si1—F193.0 (8)
C29A—C28A—C27A121.0 (5)F3D—Si1—F288.4 (8)
C29A—C28A—H28A119.5F3D—Si1—F4D88.7 (6)
C29A—C28A—Cu2A72.8 (3)F3D—Si1—F5D174.0 (11)
Cu2A—C28A—H28A92.0F5D—Si1—F192.8 (7)
C28A—C29A—H29A120.0F5D—Si1—F285.8 (7)
C28A—C29A—H29B120.0F5D—Si1—F4D89.3 (6)
C28A—C29A—Cu2A68.4 (3)F6D—Si1—F189.0 (5)
H29A—C29A—H29B120.0F6D—Si1—F289.7 (5)
Cu2A—C29A—H29A106.9F6D—Si1—F3D90.9 (6)
Cu2A—C29A—H29B94.4F6D—Si1—F4D172.4 (6)
N14—Cu2A—N23111.49 (19)F6D—Si1—F5D90.3 (6)
N14—Cu2A—C28A153.0 (2)N1—C2—C3174.2 (17)
N14—Cu2A—C29A114.2 (2)C2—C3—H3A109.5
N23—Cu2A—C28A95.1 (2)C2—C3—H3B109.5
N23—Cu2A—C29A133.3 (2)C2—C3—H3C109.5
C28A—Cu2A—C29A38.75 (19)H3A—C3—H3B109.5
C22—S22A—C27A104.05 (16)H3A—C3—H3C109.5
S12—C17B—H17C108.2H3B—C3—H3C109.5
S12—C17B—H17D108.2
C12—N13—N14—C152.4 (3)S12—C12—S11—C15179.84 (18)
C12—N13—N14—Cu2A170.8 (2)S12—C17A—C18A—Cu172.0 (6)
C12—N13—N14—Cu2B179.3 (7)S12—C17A—C18A—C19A151.8 (9)
C12—S12—C17A—C18A40.2 (6)S12—C17B—C18B—Cu169.4 (9)
C12—S12—C17B—C18B68.3 (8)S12—C17B—C18B—C19B141.0 (17)
C22—N23—N24—C252.2 (3)S21—C22—N23—N241.7 (3)
C22—N23—N24—Cu1154.9 (2)S21—C22—N23—Cu2A172.19 (16)
Cu1—N13—N14—C15177.89 (18)S21—C22—N23—Cu2B175.7 (6)
Cu1—N13—N14—Cu2A9.0 (3)S21—C22—S22A—C27A176.71 (19)
Cu1—N13—N14—Cu2B0.5 (8)S21—C22—S22B—C27B150.7 (11)
N12—C15—N14—N13177.4 (3)S21—C25—N24—Cu1151.74 (16)
N12—C15—N14—Cu2A10.8 (4)S21—C25—N24—N231.7 (3)
N12—C15—N14—Cu2B1.0 (8)C17A—C18A—C19A—Cu199.0 (7)
N12—C15—S11—C12178.4 (3)C27A—C28A—C29A—Cu2A97.7 (4)
N13—C12—S11—C150.0 (2)C28A—C27A—S22A—C2251.8 (3)
N13—C12—S12—C17A0.9 (4)Cu2A—N23—N24—C25173.8 (2)
N13—C12—S12—C17B26.1 (5)Cu2A—N23—N24—Cu116.7 (3)
N14—C15—S11—C121.3 (2)S22A—C22—N23—N24178.0 (2)
N22—C25—N24—Cu129.1 (5)S22A—C22—N23—Cu2A7.5 (4)
N22—C25—N24—N23177.4 (3)S22A—C22—S21—C25179.1 (2)
N22—C25—S21—C22178.5 (3)S22A—C27A—C28A—C29A157.8 (4)
N23—C22—S21—C250.6 (2)S22A—C27A—C28A—Cu2A79.0 (3)
N23—C22—S22A—C27A3.6 (4)C17B—C18B—C19B—Cu192.4 (13)
N23—C22—S22B—C27B10.0 (13)C27B—C28B—C29B—Cu2B96 (3)
N24—C25—S21—C220.7 (2)C28B—C27B—S22B—C2260 (3)
S11—C12—N13—Cu1178.94 (13)C28B—C29B—Cu2B—N14166.5 (17)
S11—C12—N13—N141.3 (3)C28B—C29B—Cu2B—N2347 (3)
S11—C12—S12—C17A179.3 (3)Cu2B—N23—N24—C25175.3 (6)
S11—C12—S12—C17B154.2 (4)Cu2B—N23—N24—Cu127.6 (6)
S11—C15—N14—N132.3 (3)S22B—C22—N23—N24159.6 (5)
S11—C15—N14—Cu2A169.48 (18)S22B—C22—N23—Cu2B23.0 (8)
S11—C15—N14—Cu2B179.3 (7)S22B—C22—S21—C25162.2 (4)
S12—C12—N13—Cu10.8 (4)S22B—C27B—C28B—C29B133 (3)
S12—C12—N13—N14178.9 (2)S22B—C27B—C28B—Cu2B63 (3)
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N12—H12A···F10.86 (3)2.14 (4)2.973 (4)163 (3)
N12—H12A···F3A0.86 (3)2.26 (4)2.780 (6)119 (3)
N12—H12A···F3B0.86 (3)2.48 (4)2.990 (9)119 (3)
N12—H12A···F6C0.86 (3)2.35 (4)2.989 (14)132 (3)
N12—H12A···F6D0.86 (3)2.17 (4)2.733 (13)123 (3)
N12—H12B···F2i0.86 (4)2.04 (4)2.827 (3)152 (3)
N22—H22A···F2ii0.93 (4)2.05 (4)2.903 (4)153 (3)
N22—H22A···F6Cii0.93 (4)2.40 (4)2.931 (15)117 (3)
N22—H22B···F5Aiii0.83 (4)1.83 (4)2.638 (5)165 (4)
N22—H22B···F3Bii0.83 (4)2.52 (4)2.931 (9)112 (3)
N22—H22B···F5Biii0.83 (4)1.98 (4)2.758 (9)157 (4)
N22—H22B···F4Ciii0.83 (4)2.55 (4)3.250 (19)142 (3)
N22—H22B···F5Ciii0.83 (4)2.50 (4)3.27 (2)154 (4)
N22—H22B···F4Diii0.83 (4)2.00 (4)2.766 (15)153 (4)
O1—H1A···N10.911.892.789 (10)175
O1—H1A···O30.912.062.875 (7)149
O1—H1B···O20.901.852.698 (4)156
O2—H2A···F5Aiv0.872.483.293 (9)156
O2—H2A···F6Aiv0.872.232.926 (8)138
O2—H2A···F5Biv0.871.982.819 (11)163
O2—H2A···F6Biv0.872.683.361 (13)136
O2—H2A···F5Civ0.871.522.385 (12)169
O2—H2A···F5Div0.871.642.427 (15)150
O2—H2B···F3Av0.872.483.095 (9)128
O2—H2B···F3Bv0.872.032.691 (9)132
O2—H2B···F4Bv0.872.613.464 (13)168
O2—H2B···F3Cv0.871.592.383 (11)149
O2—H2B···F3Dv0.871.592.465 (18)177
O2—H2B···F4Av0.872.092.952 (9)169
C17A—H17A···F4Avi0.972.433.333 (8)155
C27A—H27A···O2vii0.972.523.322 (5)140
C27A—H27B···F10.972.463.376 (4)157
C27B—H27D···O1vii0.972.663.57 (4)157
C28B—H28B···F10.932.573.23 (3)128
Symmetry codes: (i) x3/2, y1/2, z+1/2; (ii) x+1/2, y3/2, z1/2; (iii) x1, y1, z; (iv) x1/2, y1/2, z+1/2; (v) x+1, y, z; (vi) x1, y2, z; (vii) x1/2, y+1/2, z+1/2.
(5) µ-Benzenesulfonato-bis{µ-5-[(prop-2-en-1-yl)sulfanyl]-1,3,4-thiadiazol-2-amine}dicopper(I) benzenesulfonate methanol monosolvate monohydrate top
Crystal data top
[Cu2(C6H5O3S)(C5H7N3S2)2](C6H5O3S)·CH4O·H2OF(000) = 1712
Mr = 837.97Dx = 1.734 Mg m3
Monoclinic, P21/cCu Kα radiation, λ = 1.54184 Å
a = 14.944 (4) ÅCell parameters from 10457 reflections
b = 16.587 (5) Åθ = 3.4–77.6°
c = 14.658 (4) ŵ = 5.77 mm1
β = 117.91 (3)°T = 110 K
V = 3210.7 (17) Å3Block, clear colourless
Z = 40.45 × 0.32 × 0.17 mm
Data collection top
Rigaku Xcalibur Onyx
diffractometer
6741 independent reflections
Radiation source: fine-focus sealed X-ray tube, Enhance (Cu) X-ray Source6073 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.056
Detector resolution: 8.1956 pixels mm-1θmax = 78.0°, θmin = 3.4°
ω scansh = 1618
Absorption correction: analytical
[CrysAlis PRO (Rigaku OD, 2015), based on expressions derived by Clark & Reid (1995)]
k = 2017
Tmin = 0.248, Tmax = 0.540l = 1816
16595 measured reflections
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.057H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.166 w = 1/[σ2(Fo2) + (0.108P)2 + 2.144P]
where P = (Fo2 + 2Fc2)/3
S = 1.05(Δ/σ)max = 0.001
6741 reflectionsΔρmax = 1.03 e Å3
487 parametersΔρmin = 1.49 e Å3
3 restraints
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Cu10.71463 (4)0.46102 (3)0.25333 (4)0.03132 (15)
Cu20.70615 (4)0.53623 (3)0.46302 (4)0.03199 (15)
S110.74240 (6)0.73187 (5)0.27560 (6)0.03241 (18)
S120.68469 (9)0.63190 (6)0.08869 (7)0.0451 (2)
S210.80874 (6)0.27825 (5)0.50610 (6)0.03168 (18)
S220.73084 (6)0.36872 (5)0.62865 (5)0.03159 (18)
S31A0.4810 (3)0.4424 (3)0.2480 (3)0.0304 (6)0.644 (6)
S31B0.4816 (6)0.4310 (5)0.2230 (5)0.0296 (11)0.356 (6)
O31A0.5331 (3)0.4589 (3)0.1884 (4)0.0449 (11)0.644 (6)
O31B0.5736 (4)0.4754 (4)0.2891 (5)0.0310 (16)0.356 (6)
O32A0.5256 (3)0.4869 (3)0.3451 (3)0.0448 (11)0.644 (6)
O32B0.3953 (7)0.4564 (6)0.2366 (9)0.037 (2)0.356 (6)
O33A0.3728 (4)0.4551 (4)0.1911 (4)0.0383 (12)0.644 (6)
O33B0.4610 (5)0.4282 (5)0.1179 (5)0.0378 (18)0.356 (6)
N120.7894 (2)0.72597 (17)0.4762 (2)0.0345 (6)
H12A0.797 (3)0.781 (3)0.478 (4)0.041*
H12B0.814 (4)0.700 (3)0.535 (4)0.041*
N130.7226 (2)0.57953 (16)0.2809 (2)0.0289 (5)
N140.74612 (19)0.60649 (16)0.37976 (18)0.0262 (5)
N220.8476 (2)0.28718 (18)0.3451 (2)0.0360 (6)
H22A0.871 (4)0.315 (3)0.308 (4)0.043*
H22B0.871 (4)0.239 (3)0.362 (4)0.043*
N230.75070 (18)0.42421 (16)0.46223 (18)0.0257 (5)
N240.7777 (2)0.40025 (16)0.38683 (19)0.0276 (5)
C120.7161 (3)0.63734 (19)0.2188 (3)0.0320 (6)
C150.7616 (2)0.68478 (19)0.3896 (2)0.0295 (6)
C17A0.7197 (3)0.5307 (3)0.0744 (3)0.0357 (11)0.801 (10)
H17A0.70980.52410.00320.043*0.801 (10)
H17B0.79270.52330.12210.043*0.801 (10)
C17B0.6409 (11)0.5277 (9)0.0557 (11)0.027 (4)*0.199 (10)
H17C0.58320.51910.07010.033*0.199 (10)
H17D0.61570.52000.01930.033*0.199 (10)
C18A0.6618 (3)0.4659 (3)0.0951 (3)0.0333 (10)0.801 (10)
H18A0.59460.47720.08210.040*0.801 (10)
C18B0.7173 (13)0.4671 (8)0.1108 (11)0.022 (4)*0.199 (10)
H18B0.78590.48250.13450.026*0.199 (10)
C190.7008 (3)0.3910 (2)0.1317 (2)0.0388 (7)
H19A0.76790.37810.14530.047*0.801 (10)
H19B0.66080.35200.14350.047*0.801 (10)
H19C0.63360.37270.10970.047*0.199 (10)
H19D0.75640.35580.16850.047*0.199 (10)
C220.7610 (2)0.36726 (18)0.5270 (2)0.0274 (6)
C250.8116 (2)0.32546 (19)0.4009 (2)0.0289 (6)
C27A0.7145 (4)0.4774 (3)0.6479 (4)0.0346 (13)0.664 (10)
H27A0.69400.48270.70280.042*0.664 (10)
H27B0.78060.50490.67220.042*0.664 (10)
C28A0.6385 (4)0.5191 (4)0.5539 (4)0.0368 (14)0.664 (10)
H28A0.58410.48910.50250.044*0.664 (10)
C29A0.6456 (12)0.6009 (6)0.5396 (12)0.035 (4)0.664 (10)
H29A0.69990.63130.59050.042*0.664 (10)
H29B0.59630.62660.47890.042*0.664 (10)
C27B0.6490 (6)0.4546 (5)0.6003 (6)0.023 (2)*0.336 (10)
H27C0.59100.44870.53040.027*0.336 (10)
H27D0.62210.45730.65040.027*0.336 (10)
C28B0.7036 (6)0.5298 (5)0.6054 (6)0.022 (2)*0.336 (10)
H28B0.77480.53340.64770.026*0.336 (10)
C29B0.648 (3)0.5963 (14)0.546 (3)0.049 (11)*0.336 (10)
H29C0.57690.59210.50420.058*0.336 (10)
H29D0.68190.64540.54840.058*0.336 (10)
C310.5023 (2)0.3352 (2)0.2756 (3)0.0331 (6)
C320.5006 (3)0.2774 (3)0.2070 (3)0.0487 (9)
H320.48920.29260.13990.058*
C330.5157 (3)0.1973 (3)0.2365 (4)0.0594 (12)
H330.51480.15770.18930.071*
C340.5320 (3)0.1741 (3)0.3333 (4)0.0549 (11)
H340.54250.11900.35310.066*
C350.5329 (3)0.2328 (3)0.4021 (3)0.0480 (9)
H350.54340.21780.46900.058*
C360.5186 (2)0.3121 (2)0.3729 (3)0.0403 (7)
H360.52000.35190.42010.048*
S410.97251 (6)0.62170 (5)0.76431 (6)0.03256 (19)
O410.8831 (2)0.6489 (2)0.6743 (2)0.0575 (8)
O421.0634 (2)0.66597 (18)0.7849 (2)0.0463 (6)
O430.95553 (18)0.61808 (18)0.85462 (19)0.0414 (6)
C410.9942 (2)0.5208 (2)0.7391 (3)0.0338 (6)
C421.0076 (3)0.5059 (3)0.6531 (3)0.0448 (8)
H421.00490.54890.60900.054*
C431.0252 (3)0.4279 (3)0.6323 (4)0.0608 (12)
H431.03480.41710.57390.073*
C441.0287 (3)0.3646 (3)0.6973 (5)0.0641 (14)
H441.04030.31100.68270.077*
C451.0155 (3)0.3804 (3)0.7818 (4)0.0577 (12)
H451.01880.33750.82620.069*
C460.9975 (3)0.4584 (2)0.8035 (3)0.0429 (8)
H460.98740.46880.86180.052*
O610.9016 (2)0.35933 (15)0.9454 (2)0.0377 (5)
H610.944 (4)0.366 (3)0.999 (4)0.057*
C610.8226 (4)0.4136 (3)0.9263 (4)0.0536 (10)
H61A0.76200.39750.86330.080*
H61B0.84300.46800.91760.080*
H61C0.80780.41310.98470.080*
O510.1975 (3)0.38050 (17)0.0872 (3)0.0481 (7)
H51A0.162 (5)0.379 (4)0.116 (5)0.072*
H51B0.248 (5)0.407 (4)0.124 (5)0.072*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Cu10.0483 (3)0.0242 (3)0.0271 (2)0.00226 (17)0.0224 (2)0.00268 (16)
Cu20.0501 (3)0.0251 (3)0.0337 (3)0.00360 (18)0.0305 (2)0.00246 (17)
S110.0443 (4)0.0243 (4)0.0373 (4)0.0033 (3)0.0263 (3)0.0055 (3)
S120.0792 (6)0.0346 (4)0.0339 (4)0.0096 (4)0.0367 (4)0.0095 (3)
S210.0415 (4)0.0272 (4)0.0332 (4)0.0057 (3)0.0232 (3)0.0079 (3)
S220.0376 (4)0.0373 (4)0.0247 (3)0.0021 (3)0.0186 (3)0.0059 (3)
S31A0.0278 (7)0.0293 (11)0.0368 (17)0.0016 (6)0.0175 (11)0.0018 (10)
S31B0.0242 (12)0.037 (3)0.026 (2)0.0010 (14)0.0107 (16)0.0011 (17)
O31A0.047 (2)0.045 (2)0.058 (3)0.0005 (17)0.037 (2)0.0055 (19)
O31B0.027 (3)0.031 (3)0.027 (3)0.006 (2)0.006 (2)0.003 (2)
O32A0.0359 (18)0.040 (2)0.048 (2)0.0005 (15)0.0107 (16)0.0140 (18)
O32B0.027 (4)0.044 (4)0.044 (5)0.006 (3)0.021 (4)0.001 (5)
O33A0.029 (2)0.046 (2)0.033 (3)0.0025 (18)0.010 (2)0.005 (3)
O33B0.037 (3)0.050 (4)0.026 (3)0.008 (3)0.014 (3)0.007 (3)
N120.0449 (14)0.0252 (13)0.0334 (13)0.0004 (11)0.0183 (12)0.0012 (11)
N130.0416 (13)0.0260 (12)0.0270 (12)0.0024 (10)0.0226 (10)0.0005 (10)
N140.0341 (11)0.0251 (12)0.0238 (11)0.0009 (9)0.0172 (9)0.0004 (9)
N220.0517 (16)0.0263 (13)0.0432 (15)0.0076 (11)0.0333 (13)0.0047 (11)
N230.0310 (11)0.0282 (12)0.0217 (10)0.0011 (9)0.0155 (9)0.0005 (9)
N240.0382 (12)0.0256 (12)0.0279 (11)0.0031 (9)0.0229 (10)0.0011 (9)
C120.0454 (16)0.0265 (15)0.0326 (15)0.0027 (12)0.0253 (13)0.0030 (12)
C150.0285 (12)0.0292 (15)0.0335 (14)0.0039 (11)0.0170 (11)0.0030 (12)
C17A0.046 (2)0.036 (2)0.036 (2)0.0079 (16)0.0287 (18)0.0045 (16)
C18A0.031 (2)0.041 (2)0.0251 (18)0.0033 (15)0.0113 (15)0.0050 (15)
C190.0546 (19)0.0335 (17)0.0251 (14)0.0007 (14)0.0160 (13)0.0073 (12)
C220.0316 (13)0.0283 (14)0.0259 (13)0.0035 (11)0.0164 (11)0.0049 (11)
C250.0323 (13)0.0265 (14)0.0306 (13)0.0002 (11)0.0171 (11)0.0025 (11)
C27A0.044 (3)0.038 (3)0.026 (2)0.000 (2)0.020 (2)0.0006 (19)
C28A0.034 (3)0.050 (3)0.039 (3)0.005 (2)0.027 (2)0.004 (2)
C29A0.058 (7)0.029 (4)0.043 (6)0.012 (2)0.044 (5)0.002 (2)
C310.0235 (12)0.0339 (16)0.0368 (15)0.0038 (11)0.0099 (11)0.0002 (13)
C320.0465 (19)0.060 (3)0.046 (2)0.0038 (17)0.0271 (16)0.0105 (18)
C330.050 (2)0.054 (3)0.075 (3)0.0051 (18)0.030 (2)0.026 (2)
C340.0360 (16)0.036 (2)0.077 (3)0.0033 (14)0.0136 (18)0.0017 (19)
C350.0403 (17)0.050 (2)0.0416 (18)0.0047 (16)0.0091 (14)0.0146 (16)
C360.0332 (14)0.045 (2)0.0309 (15)0.0037 (13)0.0054 (12)0.0004 (14)
S410.0324 (3)0.0379 (4)0.0270 (3)0.0006 (3)0.0136 (3)0.0044 (3)
O410.0610 (17)0.0601 (19)0.0351 (13)0.0229 (15)0.0089 (12)0.0111 (13)
O420.0559 (15)0.0435 (15)0.0536 (15)0.0159 (12)0.0374 (13)0.0107 (12)
O430.0360 (11)0.0578 (16)0.0362 (12)0.0015 (10)0.0216 (10)0.0022 (11)
C410.0238 (12)0.0399 (17)0.0347 (15)0.0034 (12)0.0113 (11)0.0019 (13)
C420.0428 (17)0.050 (2)0.0473 (19)0.0056 (15)0.0257 (15)0.0039 (17)
C430.050 (2)0.064 (3)0.076 (3)0.009 (2)0.036 (2)0.024 (2)
C440.0369 (18)0.043 (2)0.112 (4)0.0040 (15)0.034 (2)0.013 (2)
C450.0361 (17)0.041 (2)0.088 (3)0.0022 (15)0.023 (2)0.012 (2)
C460.0321 (15)0.044 (2)0.051 (2)0.0039 (13)0.0174 (14)0.0094 (16)
O610.0455 (12)0.0322 (12)0.0347 (12)0.0001 (10)0.0183 (10)0.0046 (10)
C610.067 (3)0.037 (2)0.058 (2)0.0139 (18)0.031 (2)0.0029 (18)
O510.0623 (17)0.0329 (13)0.0722 (19)0.0012 (12)0.0506 (16)0.0025 (13)
Geometric parameters (Å, º) top
Cu1—O31A2.418 (4)C18B—C191.348 (14)
Cu1—O31B2.409 (7)C19—H19A0.9500
Cu1—N131.999 (3)C19—H19B0.9500
Cu1—N242.002 (3)C19—H19C0.9500
Cu1—C18A2.072 (4)C19—H19D0.9500
Cu1—C18B2.111 (14)C27A—H27A0.9900
Cu1—C192.055 (3)C27A—H27B0.9900
Cu2—N141.972 (2)C27A—C28A1.484 (7)
Cu2—N231.976 (3)C28A—H28A0.9500
Cu2—C28A2.033 (4)C28A—C29A1.384 (11)
Cu2—C29A2.044 (11)C29A—H29A0.9500
Cu2—C28B2.107 (8)C29A—H29B0.9500
Cu2—C29B2.06 (4)C27B—H27C0.9900
S11—C121.732 (3)C27B—H27D0.9900
S11—C151.743 (3)C27B—C28B1.473 (10)
S12—C121.740 (3)C28B—H28B0.9500
S12—C17A1.799 (4)C28B—C29B1.408 (17)
S12—C17B1.830 (15)C29B—H29C0.9500
S21—C221.728 (3)C29B—H29D0.9500
S21—C251.748 (3)C31—C321.380 (5)
S22—C221.747 (3)C31—C361.384 (5)
S22—C27A1.858 (6)C32—H320.9500
S22—C27B1.795 (8)C32—C331.383 (7)
S31A—O31A1.444 (5)C33—H330.9500
S31A—O32A1.458 (5)C33—C341.378 (7)
S31A—O33A1.447 (7)C34—H340.9500
S31A—C311.819 (6)C34—C351.398 (7)
S31B—O31B1.458 (9)C35—H350.9500
S31B—O32B1.457 (11)C35—C361.369 (6)
S31B—O33B1.424 (8)C36—H360.9500
S31B—C311.729 (9)S41—O411.442 (3)
N12—H12A0.91 (5)S41—O421.446 (3)
N12—H12B0.87 (5)S41—O431.461 (2)
N12—C151.326 (4)S41—C411.775 (4)
N13—N141.395 (3)C41—C421.389 (5)
N13—C121.294 (4)C41—C461.386 (5)
N14—C151.315 (4)C42—H420.9500
N22—H22A0.90 (5)C42—C431.383 (7)
N22—H22B0.86 (5)C43—H430.9500
N22—C251.331 (4)C43—C441.402 (8)
N23—N241.400 (3)C44—H440.9500
N23—C221.296 (4)C44—C451.367 (8)
N24—C251.319 (4)C45—H450.9500
C17A—H17A0.9900C45—C461.388 (6)
C17A—H17B0.9900C46—H460.9500
C17A—C18A1.498 (6)O61—H610.75 (6)
C17B—H17C0.9900O61—C611.404 (5)
C17B—H17D0.9900C61—H61A0.9800
C17B—C18B1.45 (2)C61—H61B0.9800
C18A—H18A0.9500C61—H61C0.9800
C18A—C191.369 (6)O51—H51A0.82 (6)
C18B—H18B0.9500O51—H51B0.81 (7)
N13—Cu1—O31A92.50 (13)C18A—C19—H19A120.0
N13—Cu1—O31B80.46 (17)C18A—C19—H19B120.0
N13—Cu1—N24109.96 (11)C18B—C19—Cu173.4 (6)
N13—Cu1—C18A98.26 (15)C18B—C19—H19C120.0
N13—Cu1—C18B97.3 (4)C18B—C19—H19D120.0
N13—Cu1—C19134.67 (13)H19A—C19—H19B120.0
N24—Cu1—O31A107.80 (13)H19C—C19—H19D120.0
N24—Cu1—O31B84.07 (16)S21—C22—S22117.10 (17)
N24—Cu1—C18A150.68 (15)N23—C22—S21114.2 (2)
N24—Cu1—C18B140.6 (4)N23—C22—S22128.7 (2)
N24—Cu1—C19111.94 (13)N22—C25—S21120.8 (2)
C18A—Cu1—O31A77.89 (17)N24—C25—S21113.1 (2)
C18B—Cu1—O31B129.4 (5)N24—C25—N22126.1 (3)
C19—Cu1—O31A90.65 (16)S22—C27A—H27A108.7
C19—Cu1—O31B120.10 (19)S22—C27A—H27B108.7
C19—Cu1—C18A38.75 (16)H27A—C27A—H27B107.6
C19—Cu1—C18B37.7 (4)C28A—C27A—S22114.1 (4)
N14—Cu2—N23110.59 (10)C28A—C27A—H27A108.7
N14—Cu2—C28A151.09 (18)C28A—C27A—H27B108.7
N14—Cu2—C29A111.7 (3)Cu2—C28A—H28A93.4
N14—Cu2—C28B142.6 (2)C27A—C28A—Cu2105.9 (3)
N14—Cu2—C29B114.5 (6)C27A—C28A—H28A119.4
N23—Cu2—C28A98.32 (18)C29A—C28A—Cu270.6 (5)
N23—Cu2—C29A137.2 (3)C29A—C28A—C27A121.2 (8)
N23—Cu2—C28B96.9 (2)C29A—C28A—H28A119.4
N23—Cu2—C29B134.1 (5)Cu2—C29A—H29A106.0
C28A—Cu2—C29A39.7 (3)Cu2—C29A—H29B94.0
C29B—Cu2—C28B39.5 (6)C28A—C29A—Cu269.7 (4)
C12—S11—C1587.34 (15)C28A—C29A—H29A120.0
C12—S12—C17A103.40 (18)C28A—C29A—H29B120.0
C12—S12—C17B102.6 (5)H29A—C29A—H29B120.0
C22—S21—C2587.48 (14)S22—C27B—H27C109.4
C22—S22—C27A104.32 (18)S22—C27B—H27D109.4
C22—S22—C27B103.5 (3)H27C—C27B—H27D108.0
O31A—S31A—O32A111.4 (4)C28B—C27B—S22111.1 (6)
O31A—S31A—O33A113.5 (4)C28B—C27B—H27C109.4
O31A—S31A—C31103.4 (3)C28B—C27B—H27D109.4
O32A—S31A—C31109.0 (3)Cu2—C28B—H28B96.3
O33A—S31A—O32A111.4 (4)C27B—C28B—Cu2105.0 (5)
O33A—S31A—C31107.7 (4)C27B—C28B—H28B120.7
O31B—S31B—C31104.6 (5)C29B—C28B—Cu268.2 (15)
O32B—S31B—O31B112.5 (7)C29B—C28B—C27B118.7 (17)
O32B—S31B—C31101.0 (6)C29B—C28B—H28B120.7
O33B—S31B—O31B113.2 (6)Cu2—C29B—H29C103.6
O33B—S31B—O32B113.6 (7)Cu2—C29B—H29D94.0
O33B—S31B—C31110.8 (5)C28B—C29B—Cu272.3 (13)
S31A—O31A—Cu1126.0 (3)C28B—C29B—H29C120.0
S31B—O31B—Cu1117.0 (4)C28B—C29B—H29D120.0
H12A—N12—H12B118 (4)H29C—C29B—H29D120.0
C15—N12—H12A122 (3)C32—C31—S31A125.1 (3)
C15—N12—H12B119 (3)C32—C31—S31B112.0 (3)
N14—N13—Cu1119.16 (19)C32—C31—C36119.6 (4)
C12—N13—Cu1127.5 (2)C36—C31—S31A115.3 (3)
C12—N13—N14113.1 (3)C36—C31—S31B128.4 (3)
N13—N14—Cu2116.85 (19)C31—C32—H32120.2
C15—N14—Cu2127.2 (2)C31—C32—C33119.6 (4)
C15—N14—N13112.1 (2)C33—C32—H32120.2
H22A—N22—H22B116 (4)C32—C33—H33119.5
C25—N22—H22A121 (3)C34—C33—C32121.0 (4)
C25—N22—H22B119 (3)C34—C33—H33119.5
N24—N23—Cu2119.61 (18)C33—C34—H34120.5
C22—N23—Cu2127.3 (2)C33—C34—C35119.1 (4)
C22—N23—N24113.1 (3)C35—C34—H34120.5
N23—N24—Cu1116.81 (18)C34—C35—H35120.1
C25—N24—Cu1126.6 (2)C36—C35—C34119.8 (4)
C25—N24—N23112.0 (2)C36—C35—H35120.1
S11—C12—S12117.25 (18)C31—C36—H36119.5
N13—C12—S11114.0 (2)C35—C36—C31120.9 (4)
N13—C12—S12128.7 (3)C35—C36—H36119.5
N12—C15—S11121.6 (3)O41—S41—O42114.2 (2)
N14—C15—S11113.3 (2)O41—S41—O43111.24 (18)
N14—C15—N12125.1 (3)O41—S41—C41106.60 (18)
S12—C17A—H17A108.6O42—S41—O43112.07 (16)
S12—C17A—H17B108.6O42—S41—C41106.11 (16)
H17A—C17A—H17B107.5O43—S41—C41105.98 (17)
C18A—C17A—S12114.8 (3)C42—C41—S41118.3 (3)
C18A—C17A—H17A108.6C46—C41—S41121.0 (3)
C18A—C17A—H17B108.6C46—C41—C42120.7 (4)
S12—C17B—H17C108.6C41—C42—H42120.3
S12—C17B—H17D108.6C43—C42—C41119.3 (4)
H17C—C17B—H17D107.6C43—C42—H42120.3
C18B—C17B—S12114.6 (11)C42—C43—H43119.9
C18B—C17B—H17C108.6C42—C43—C44120.1 (4)
C18B—C17B—H17D108.6C44—C43—H43119.9
Cu1—C18A—H18A92.6C43—C44—H44120.1
C17A—C18A—Cu1107.5 (3)C45—C44—C43119.8 (4)
C17A—C18A—H18A118.3C45—C44—H44120.1
C19—C18A—Cu169.9 (2)C44—C45—H45119.6
C19—C18A—C17A123.4 (4)C44—C45—C46120.8 (4)
C19—C18A—H18A118.3C46—C45—H45119.6
Cu1—C18B—H18B99.7C41—C46—C45119.3 (4)
C17B—C18B—Cu1102.1 (10)C41—C46—H46120.3
C17B—C18B—H18B116.7C45—C46—H46120.3
C19—C18B—Cu168.9 (6)C61—O61—H61109 (4)
C19—C18B—C17B126.6 (14)O61—C61—H61A109.5
C19—C18B—H18B116.7O61—C61—H61B109.5
Cu1—C19—H19A106.1O61—C61—H61C109.5
Cu1—C19—H19B92.5H61A—C61—H61B109.5
Cu1—C19—H19C97.9H61A—C61—H61C109.5
Cu1—C19—H19D98.6H61B—C61—H61C109.5
C18A—C19—Cu171.3 (2)H51A—O51—H51B107 (6)
Cu1—N13—N14—Cu228.8 (3)C12—S11—C15—N141.4 (2)
Cu1—N13—N14—C15171.7 (2)C12—S12—C17A—C18A63.3 (4)
Cu1—N13—C12—S11172.29 (16)C12—S12—C17B—C18B63.0 (11)
Cu1—N13—C12—S127.9 (5)C12—N13—N14—Cu2156.3 (2)
Cu1—N24—C25—S21153.25 (16)C12—N13—N14—C153.2 (4)
Cu1—N24—C25—N2228.4 (5)C15—S11—C12—S12179.4 (2)
Cu2—N14—C15—S11154.08 (16)C15—S11—C12—N130.5 (3)
Cu2—N14—C15—N1226.2 (4)C17A—S12—C12—S11154.6 (2)
Cu2—N23—N24—Cu126.2 (3)C17A—S12—C12—N1325.5 (4)
Cu2—N23—N24—C25176.0 (2)C17A—C18A—C19—Cu198.2 (4)
Cu2—N23—C22—S21176.45 (14)C17B—S12—C12—S11169.9 (5)
Cu2—N23—C22—S225.0 (4)C17B—S12—C12—N139.9 (6)
S12—C17A—C18A—Cu173.8 (3)C17B—C18B—C19—Cu189.6 (14)
S12—C17A—C18A—C19151.0 (3)C22—S21—C25—N22177.7 (3)
S12—C17B—C18B—Cu181.3 (11)C22—S21—C25—N240.8 (2)
S12—C17B—C18B—C19153.9 (10)C22—S22—C27A—C28A55.9 (4)
S22—C27A—C28A—Cu275.7 (4)C22—S22—C27B—C28B64.8 (6)
S22—C27A—C28A—C29A152.3 (6)C22—N23—N24—Cu1155.4 (2)
S22—C27B—C28B—Cu280.4 (6)C22—N23—N24—C252.4 (4)
S22—C27B—C28B—C29B153.5 (18)C25—S21—C22—S22178.01 (19)
S31A—C31—C32—C33178.5 (3)C25—S21—C22—N230.7 (2)
S31A—C31—C36—C35178.2 (3)C27A—S22—C22—S21166.1 (2)
S31B—C31—C32—C33179.9 (4)C27A—S22—C22—N2315.4 (3)
S31B—C31—C36—C35179.4 (4)C27A—C28A—C29A—Cu297.3 (5)
O31A—S31A—C31—C3239.7 (5)C27B—S22—C22—S21162.1 (3)
O31A—S31A—C31—C36142.0 (3)C27B—S22—C22—N2316.4 (4)
O31B—S31B—C31—C32118.6 (4)C27B—C28B—C29B—Cu295.7 (12)
O31B—S31B—C31—C3661.8 (6)C31—S31A—O31A—Cu170.9 (4)
O32A—S31A—O31A—Cu146.0 (5)C31—S31B—O31B—Cu183.3 (5)
O32A—S31A—C31—C32158.4 (3)C31—C32—C33—C340.3 (6)
O32A—S31A—C31—C3623.3 (4)C32—C31—C36—C350.2 (5)
O32B—S31B—O31B—Cu1168.0 (6)C32—C33—C34—C350.2 (6)
O32B—S31B—C31—C32124.4 (6)C33—C34—C35—C360.6 (6)
O32B—S31B—C31—C3655.2 (7)C34—C35—C36—C310.6 (6)
O33A—S31A—O31A—Cu1172.8 (4)C36—C31—C32—C330.3 (5)
O33A—S31A—C31—C3280.6 (5)S41—C41—C42—C43179.6 (3)
O33A—S31A—C31—C3697.7 (4)S41—C41—C46—C45179.4 (3)
O33B—S31B—O31B—Cu137.5 (8)O41—S41—C41—C4258.2 (3)
O33B—S31B—C31—C323.7 (7)O41—S41—C41—C46121.7 (3)
O33B—S31B—C31—C36175.9 (4)O42—S41—C41—C4263.9 (3)
N13—N14—C15—S112.8 (3)O42—S41—C41—C46116.2 (3)
N13—N14—C15—N12176.9 (3)O43—S41—C41—C42176.8 (3)
N14—N13—C12—S112.1 (3)O43—S41—C41—C463.1 (3)
N14—N13—C12—S12177.7 (2)C41—C42—C43—C440.3 (6)
N23—N24—C25—S211.9 (3)C42—C41—C46—C450.7 (5)
N23—N24—C25—N22176.5 (3)C42—C43—C44—C450.5 (6)
N24—N23—C22—S211.9 (3)C43—C44—C45—C460.7 (6)
N24—N23—C22—S22176.6 (2)C44—C45—C46—C410.9 (6)
C12—S11—C15—N12178.3 (3)C46—C41—C42—C430.4 (5)
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N12—H12A···O51i0.91 (5)1.94 (5)2.765 (4)150 (4)
N12—H12B···O410.87 (5)2.00 (5)2.867 (4)174 (4)
N22—H22A···O42ii0.90 (5)2.04 (5)2.896 (4)158 (4)
N22—H22B···O61iii0.86 (5)1.96 (5)2.758 (4)154 (4)
C17A—H17A···O33Aiv0.992.543.476 (7)157
C17B—H17D···S31Biv0.992.763.676 (16)154
C17B—H17D···O33Biv0.991.612.387 (16)132
C18A—H18A···O31A0.952.172.835 (6)126
C27A—H27A···O33Av0.992.443.377 (8)159
C28A—H28A···O32A0.952.052.769 (7)131
C27B—H27D···O32Bv0.992.293.133 (13)142
C28B—H28B···S410.953.013.891 (8)155
C28B—H28B···O410.952.423.096 (9)128
O61—H61···O43vi0.75 (6)1.98 (6)2.726 (4)174 (6)
C61—H61B···O51v0.982.583.426 (5)145
O51—H51A···O43v0.82 (6)2.00 (7)2.790 (4)164 (6)
O51—H51B···O32B0.81 (7)2.20 (7)3.010 (11)170 (6)
O51—H51B···O33A0.81 (7)1.84 (7)2.641 (7)168 (6)
Symmetry codes: (i) x+1, y+1/2, z+1/2; (ii) x+2, y+1, z+1; (iii) x, y+1/2, z1/2; (iv) x+1, y+1, z; (v) x+1, y+1, z+1; (vi) x+2, y+1, z+2.
Selected geometric parameters (Å, °) of (1) and (2) top
(1)
Cu1—N31.9938 (17)Cu1—m1.940 (1)
Cu1—N4i1.9693 (19)Cu1—O12.473 (3)
Cu1—C82.038 (2)C8—C91.360 (3)
Cu1—C92.073 (2)
N4i—Cu1—N3114.48 (7)O1—Cu—m97.76 (5)
C8—Cu1—C938.62 (8)C9—C8—C7122.8 (2)
(2)
Cu1—N32.0036 (15)Cu1—m1.9454 (9)
Cu1—N4i1.9646 (11)Cu1 – F12.6670 (15)
Cu1—C82.0451 (12)C8—C91.3706 (16)
Cu1—C92.0799 (15)
N4i—Cu1—N3114.54 (5)F1—Cu—m95.51 (3)
C8—Cu1—C938.80 (5)C9—C8—C7123.77 (10)
Symmetry code: (i) -x+1, -y+1, -z+1. m is the mid-point of CC bond.
Table 5 Selected geometric parameters (Å, °) of 3 top
m — middle of allylic C = C bond.
Cu1A—N132.045 (3)Cu2A—C28A2.062 (4)
Cu1A—N241.962 (2)Cu2A—C29A2.052 (8)
Cu1A—C18A2.054 (4)Cu2B—O12.341 (7)
Cu1A—C19A2.039 (6)Cu1A—O112.4416 (29)
Cu1B—O12.363 (7)Cu2A—O212.5391 (31)
Cu2A—N141.974 (3)C18A—C19A1.374 (9)
Cu2A—N231.998 (3)C28A—C29A1.369 (11)
Cu1A—m1.928 (2)Cu2A—m?1.940 (2)
N24—Cu1A—N13110.12 (11)C19A—C18A—C17A125.4 (5)
C19A—Cu1A—C18A39.2 (2)C29A—C28A—C27A125.9 (5)
N14—Cu2A—N23111.13 (12)O11—Cu1A—m98.77 (8)
C29A—Cu2A—C28A38.9 (3)O21—Cu2A—m?101.25 (8)
 

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