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The title compound, C11H8N4S, is found to have a symmetrical resonance structure in which both pyridyl-N atoms interact with the S atom forming hemi-bonds. This also results in the formation of a delocalized di­imine region and disturbance of the aromaticity in the pyridyl rings.

Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S0108270100003152/bm1405sup1.cif
Contains datablocks II, global

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108270100003152/bm1405IIsup2.hkl
Contains datablock II

CCDC reference: 146056

Computing details top

Data collection: DENZO (Otwinowski & Minor, 1997) and COLLECT (Hooft, 1998); cell refinement: DENZO and COLLECT; data reduction: DENZO and COLLECT; program(s) used to solve structure: SHELXS97 (Sheldrick, 1997); program(s) used to refine structure: SHELXL97 (Sheldrick, 1997); molecular graphics: CAMERON (Watkin & Pearce, 1995).

(II) top
Crystal data top
C11H8N4SF(000) = 944
Mr = 228.27Dx = 1.516 Mg m3
Monoclinic, C2/cMo Kα radiation, λ = 0.71073 Å
a = 10.970 (2) ÅCell parameters from 42625 reflections
b = 8.986 (2) Åθ = 2.0–27.5°
c = 20.881 (4) ŵ = 0.30 mm1
β = 103.66 (3)°T = 150 K
V = 2000.2 (7) Å3Plate, pale yellow
Z = 80.1 × 0.1 × 0.03 mm
Data collection top
Nonius KappaCCD Area Detector
diffractometer
2164 reflections with I > 2σ(I)
Radiation source: Nonius FR591 rotating anodeRint = 0.037
φ and ω scans to fill Ewald sphereθmax = 27.5°, θmin = 2.0°
Absorption correction: multi-scans
(SORTAV; Blessing, 1995)
h = 1414
Tmin = 0.957, Tmax = 0.994k = 1111
42625 measured reflectionsl = 2727
2294 independent reflections
Refinement top
Refinement on F20 restraints
Least-squares matrix: fullAll H-atom parameters refined
R[F2 > 2σ(F2)] = 0.027 w = 1/[σ2(Fo2) + (0.0165P)2 + 1.9948P]
where P = (Fo2 + 2Fc2)/3
wR(F2) = 0.065(Δ/σ)max = 0.003
S = 1.16Δρmax = 0.24 e Å3
2294 reflectionsΔρmin = 0.29 e Å3
177 parameters
Special details top

Experimental. A combination of φ and ω scans (10 second exposure time and one degree frame increment) were employed to cover an entire hemisphere of reciprocal space.

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.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/Ueq
S10.18952 (3)0.02295 (3)0.521887 (14)0.02052 (9)
N10.11376 (9)0.15679 (11)0.44888 (5)0.0216 (2)
N20.03596 (9)0.25051 (12)0.53383 (5)0.0229 (2)
N30.11007 (9)0.10644 (11)0.62870 (5)0.0220 (2)
N40.24126 (9)0.07373 (11)0.60437 (5)0.0201 (2)
C10.13075 (12)0.15735 (15)0.38676 (6)0.0265 (3)
C20.07311 (13)0.26186 (16)0.34222 (6)0.0303 (3)
C30.00437 (12)0.36816 (16)0.36191 (7)0.0304 (3)
C40.02053 (12)0.36851 (15)0.42517 (7)0.0273 (3)
C50.04194 (11)0.25923 (13)0.46963 (6)0.0218 (2)
C60.10301 (10)0.13836 (13)0.56541 (6)0.0198 (2)
C70.18796 (11)0.00927 (13)0.64980 (6)0.0204 (2)
C80.21988 (12)0.06373 (14)0.71512 (6)0.0252 (3)
C90.30527 (12)0.17717 (15)0.73103 (6)0.0269 (3)
C100.35967 (12)0.23948 (15)0.68243 (7)0.0267 (3)
C110.32579 (11)0.18580 (14)0.61937 (6)0.0239 (2)
H10.1864 (14)0.0798 (18)0.3765 (7)0.028 (4)*
H20.0868 (16)0.2621 (19)0.2991 (8)0.040 (4)*
H30.0445 (15)0.4430 (19)0.3318 (8)0.036 (4)*
H40.0687 (14)0.4394 (18)0.4401 (7)0.028 (4)*
H80.1819 (14)0.0177 (18)0.7469 (8)0.031 (4)*
H90.3303 (15)0.2137 (18)0.7750 (8)0.035 (4)*
H100.4220 (15)0.3168 (18)0.6921 (8)0.034 (4)*
H110.3630 (14)0.2203 (17)0.5841 (8)0.029 (4)*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
S10.02135 (15)0.02052 (15)0.02073 (15)0.00246 (11)0.00706 (10)0.00299 (10)
N10.0220 (5)0.0218 (5)0.0201 (5)0.0046 (4)0.0031 (4)0.0006 (4)
N20.0221 (5)0.0220 (5)0.0247 (5)0.0008 (4)0.0060 (4)0.0001 (4)
N30.0232 (5)0.0225 (5)0.0214 (5)0.0006 (4)0.0073 (4)0.0017 (4)
N40.0201 (5)0.0207 (5)0.0201 (5)0.0019 (4)0.0060 (4)0.0005 (4)
C10.0269 (6)0.0306 (7)0.0217 (6)0.0052 (5)0.0049 (5)0.0022 (5)
C20.0295 (6)0.0387 (7)0.0210 (6)0.0088 (6)0.0027 (5)0.0024 (5)
C30.0271 (6)0.0311 (7)0.0286 (6)0.0066 (5)0.0024 (5)0.0081 (5)
C40.0233 (6)0.0252 (6)0.0313 (7)0.0020 (5)0.0022 (5)0.0024 (5)
C50.0185 (5)0.0215 (6)0.0244 (6)0.0060 (4)0.0028 (4)0.0010 (5)
C60.0177 (5)0.0199 (5)0.0224 (5)0.0036 (4)0.0059 (4)0.0041 (4)
C70.0195 (5)0.0210 (5)0.0214 (5)0.0040 (4)0.0062 (4)0.0024 (4)
C80.0290 (6)0.0262 (6)0.0216 (6)0.0023 (5)0.0083 (5)0.0009 (5)
C90.0287 (6)0.0281 (6)0.0226 (6)0.0034 (5)0.0036 (5)0.0031 (5)
C100.0225 (6)0.0253 (6)0.0313 (6)0.0011 (5)0.0046 (5)0.0028 (5)
C110.0220 (6)0.0233 (6)0.0278 (6)0.0005 (5)0.0085 (5)0.0013 (5)
Geometric parameters (Å, º) top
S1—C61.7915 (12)N4—C111.3546 (16)
S1—N41.8926 (11)C1—C21.3671 (19)
S1—N11.9653 (11)C2—C31.403 (2)
N1—C51.3480 (16)C3—C41.3737 (19)
N1—C11.3534 (16)C4—C51.4126 (18)
N2—C61.3276 (16)C7—C81.4132 (17)
N2—C51.3598 (16)C8—C91.3711 (18)
N3—C61.3366 (15)C9—C101.4092 (19)
N3—C71.3518 (16)C10—C111.3687 (18)
N4—C71.3561 (15)
C6—S1—N483.40 (5)C3—C4—C5118.54 (13)
C6—S1—N182.05 (5)N1—C5—N2116.45 (11)
N4—S1—N1165.42 (5)N1—C5—C4119.55 (11)
C5—N1—C1121.92 (11)N2—C5—C4124.00 (12)
C5—N1—S1109.93 (8)N2—C6—N3123.36 (11)
C1—N1—S1128.10 (9)N2—C6—S1119.02 (9)
C6—N2—C5112.54 (10)N3—C6—S1117.61 (9)
C6—N3—C7111.83 (10)N3—C7—N4116.38 (11)
C7—N4—C11122.72 (11)N3—C7—C8125.05 (11)
C7—N4—S1110.75 (8)N4—C7—C8118.54 (11)
C11—N4—S1126.41 (8)C9—C8—C7119.38 (12)
N1—C1—C2120.56 (13)C8—C9—C10120.15 (12)
C1—C2—C3118.90 (12)C11—C10—C9119.19 (12)
C4—C3—C2120.52 (13)N4—C11—C10120.00 (11)
 

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