Tetra­aquabis­(thio­cyanato-κN)cobalt(II) hexa­methyl­enetetra­mine (1/2) cocrystal

Li, X.-L.; Niu, D.-Z.; Lu, Z.-S.

doi:10.1107/S1600536807043024

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Tetraaquabis(thiocyanato-κN)cobalt(II) hexamethylenetetramine (1/2) cocrystal

X.-L. Li, D.-Z. Niu and Z.-S. Lu

In the crystal structure of the title compound, [Co(H₂O)₄(NCS)₂]·2C₆H₁₂N₄, the six-coordinated Co^II atom lies on a special position of mmm site symmetry and the hexamethylenetetramine molecule about a special position of $\overline{4}$ site symmetry. The two entities interact through an O—H

N hydrogen bond to form a three-dimensional network.

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Supporting information

	Crystallographic Information File (CIF) https://doi.org/10.1107/S1600536807043024/ng2324sup1.cif Contains datablock I
	Structure factor file (CIF format) https://doi.org/10.1107/S1600536807043024/ng2324Isup2.hkl Contains datablock I

CCDC reference: 223965

checkCIF report

Key indicators

Single-crystal X-ray study
T = 293 K
Mean (N-C) = 0.004 Å
R factor = 0.034
wR factor = 0.100
Data-to-parameter ratio = 10.8

checkCIF/PLATON results

No syntax errors found



Alert level B
PLAT242_ALERT_2_B Check Low       Ueq as Compared to Neighbors for         Co

Alert level C
PLAT042_ALERT_1_C Calc. and Rep. MoietyFormula Strings Differ ....          ?
PLAT066_ALERT_1_C Predicted and Reported Transmissions Identical .          ?
PLAT164_ALERT_4_C Nr. of Refined C-H H-Atoms in Heavy-At Struct...          3
PLAT232_ALERT_2_C Hirshfeld Test Diff (M-X)  Co     -   N1      ..       6.53 su
PLAT242_ALERT_2_C Check Low       Ueq as Compared to Neighbors for         C1
PLAT742_ALERT_1_C Angle   Calc   90.00(10), Rep       90.00 ......    Missing su
              O1W  -CO   -N1      1.555   1.555   1.555
PLAT764_ALERT_4_C Overcomplete CIF Bond List Detected (Rep/Expd) .       1.18 Ratio

Alert level G
PLAT199_ALERT_1_G Check the Reported _cell_measurement_temperature        293 K
PLAT200_ALERT_1_G Check the Reported _diffrn_ambient_temperature .        293 K
PLAT794_ALERT_5_G Check Predicted Bond Valency for Co          (2)       2.03

   0 ALERT level A = In general: serious problem
   1 ALERT level B = Potentially serious problem
   7 ALERT level C = Check and explain
   3 ALERT level G = General alerts; check

   5 ALERT type 1 CIF construction/syntax error, inconsistent or missing data
   3 ALERT type 2 Indicator that the structure model may be wrong or deficient
   0 ALERT type 3 Indicator that the structure quality may be low
   2 ALERT type 4 Improvement, methodology, query or suggestion
   1 ALERT type 5 Informative message, check

Comment top

Thiocyanate ion has played an important role in constructing heteronuclear complexes in our systems. (Li, Tong et al.,2004; Li, Zhao et al., 2004). Herein is described a crystal structure of thiocyanate complex, [Co(NCS)₂(H₂O)₄].2(C₆H₁₂N₄). The cell contains two same units of the title compound. A perspective drawing of the complex with atomic numbering scheme is depicted in Fig. 1 and selected bonding parameters are presented in Table 1.

The cobalt atom locates in a slightly disordered CoN₂O₄ octahedral coordination geometry. Each hmt connects with four [Co(NCS)₂(H₂O)₄] units and each [Co(NCS)₂(H₂O)₄] unit connects with eight hmt molecules through O—H···N hydrogen bonds leading to 3-D network.

Related literature top

For related compounds, see Li, Tong et al. (2004); Li, Zhao et al. (2004).

Experimental top

AgNO₃ (0.68 g, 4.0 mmol), NH₄SCN (0.61 g, 4.0 mmol) and hmt (1.4 g, 10 mmol) were added to a stired CoCl₂.6H₂O (0.47 g, 2.0 mmol) solution in acetonitrile, respectively. The mixture was stirred in r.t. for 12 h. After filtration, the filtrate was disposed to stand in the air. A few days later, purple-red single crystals suitable for X-ray diffraction were obtained.

Structure description top

For related compounds, see Li, Tong et al. (2004); Li, Zhao et al. (2004).

Computing details top

Data collection: SMART (Siemens, 1996); cell refinement: SAINT (Siemens, 1996); data reduction: SAINT (Siemens, 1996); program(s) used to solve structure: SHELXS97 (Sheldrick, 1997); program(s) used to refine structure: SHELXL97 (Sheldrick, 1996); molecular graphics: SHELXTL (Bruker, 1999); software used to prepare material for publication: SHELXTL (Bruker, 1999).

Figures top

Fig. 1. A view of the complex with the atomic numbering scheme. Displacement ellipsoids are drawn at the 30% probability level.

Tetraaquabis(thiocyanato-κN)cobalt(II) hexamethylenetetramine (1/2) cocrystal top

Crystal data top

[Co(H₂O)₄(NCS)₂]·2C₆H₁₂N₄	D_x = 1.418 Mg m⁻³
M_r = 527.55	Mo Kα radiation, λ = 0.71073 Å
Tetragonal, P4₂/mnm	Cell parameters from 200 reflections
Hall symbol: -P 4n 2n	θ = 2.6–25.1°
a = 9.4846 (4) Å	µ = 0.90 mm⁻¹
c = 13.7339 (6) Å	T = 293 K
V = 1235.47 (7) Å³	Prism, purple-red
Z = 2	0.43 × 0.40 × 0.25 mm
F(000) = 554

Data collection top

Siemens SMART diffractometer	625 independent reflections
Radiation source: fine-focus sealed tube	554 reflections with I > 2σ(I)
Graphite monochromator	R_int = 0.024
φ and ω scans	θ_max = 25.1°, θ_min = 2.6°
Absorption correction: multi-scan (SADABS; Sheldrick, 1996)	h = −7→11
T_min = 0.685, T_max = 0.798	k = −11→11
2871 measured reflections	l = −16→10

Refinement top

Refinement on F²	Secondary atom site location: difference Fourier map
Least-squares matrix: full	Hydrogen site location: inferred from neighbouring sites
R[F² > 2σ(F²)] = 0.034	H atoms treated by a mixture of independent and constrained refinement
wR(F²) = 0.100	w = 1/[σ²(F_o²) + (0.0614P)² + 0.8126P] where P = (F_o² + 2F_c²)/3
S = 1.06	(Δ/σ)_max = 0.01
626 reflections	Δρ_max = 0.33 e Å⁻³
58 parameters	Δρ_min = −0.46 e Å⁻³
0 restraints	Extinction correction: SHELXL97, Fc^*=kFc[1+0.001xFc²λ³/sin(2θ)]^-1/4
Primary atom site location: structure-invariant direct methods	Extinction coefficient: 0.052 (5)

Crystal data top

[Co(H₂O)₄(NCS)₂]·2C₆H₁₂N₄	Z = 2
M_r = 527.55	Mo Kα radiation
Tetragonal, P4₂/mnm	µ = 0.90 mm⁻¹
a = 9.4846 (4) Å	T = 293 K
c = 13.7339 (6) Å	0.43 × 0.40 × 0.25 mm
V = 1235.47 (7) Å³

Data collection top

Siemens SMART diffractometer	625 independent reflections
Absorption correction: multi-scan (SADABS; Sheldrick, 1996)	554 reflections with I > 2σ(I)
T_min = 0.685, T_max = 0.798	R_int = 0.024
2871 measured reflections

Refinement top

R[F² > 2σ(F²)] = 0.034	0 restraints
wR(F²) = 0.100	H atoms treated by a mixture of independent and constrained refinement
S = 1.06	Δρ_max = 0.33 e Å⁻³
626 reflections	Δρ_min = −0.46 e Å⁻³
58 parameters

Special details top

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.

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

	x	y	z	U_iso*/U_eq
Co	0.5000	0.5000	0.5000	0.0295 (4)
S1	0.86349 (9)	0.86349 (9)	0.5000	0.0606 (5)
O1W	0.3901 (3)	0.6099 (3)	0.3938 (3)	0.0960 (13)
H1	0.3990	0.7114	0.3810	0.115*
N1	0.6560 (3)	0.6560 (3)	0.5000	0.0413 (9)
C1	0.7427 (3)	0.7427 (3)	0.5000	0.0348 (10)
N2	0.1198 (3)	0.5440 (3)	0.31207 (17)	0.0558 (7)
C2	0.0000	0.5000	0.3713 (3)	0.0637 (13)
H2	−0.023 (4)	0.572 (4)	0.409 (2)	0.081 (11)*
C3	0.1598 (3)	0.4253 (4)	0.2505 (3)	0.0632 (9)
H3A	0.179 (4)	0.350 (4)	0.293 (3)	0.078 (11)*
H3B	0.243 (4)	0.457 (4)	0.212 (3)	0.079 (10)*

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
Co	0.0285 (4)	0.0285 (4)	0.0315 (5)	−0.0055 (3)	0.000	0.000
S1	0.0445 (6)	0.0445 (6)	0.0930 (11)	−0.0205 (6)	0.000	0.000
O1W	0.0788 (14)	0.0788 (14)	0.131 (3)	−0.0392 (18)	−0.0664 (18)	0.0664 (18)
N1	0.0391 (14)	0.0391 (14)	0.046 (2)	−0.0050 (18)	0.000	0.000
C1	0.0322 (15)	0.0322 (15)	0.040 (2)	−0.0018 (19)	0.000	0.000
N2	0.0523 (14)	0.0631 (15)	0.0520 (13)	0.0067 (11)	−0.0179 (11)	−0.0131 (11)
C2	0.095 (4)	0.065 (3)	0.0310 (18)	0.031 (2)	0.000	0.000
C3	0.0467 (17)	0.071 (2)	0.072 (2)	0.0158 (15)	0.0021 (14)	−0.0125 (17)

Geometric parameters (Å, º) top

Co—O1Wⁱ	2.074 (3)	N2—C2	1.459 (3)
Co—O1Wⁱⁱ	2.074 (3)	N2—C3^iv	1.459 (4)
Co—O1W	2.074 (3)	N2—C3	1.458 (4)
Co—O1Wⁱⁱⁱ	2.074 (3)	C2—N2^v	1.459 (3)
Co—N1ⁱⁱ	2.092 (4)	C2—H2	0.88 (3)
Co—N1	2.092 (4)	C3—N2^vi	1.459 (4)
S1—C1	1.621 (5)	C3—H3A	0.94 (4)
O1W—H1	0.9821	C3—H3B	0.99 (4)
N1—C1	1.163 (6)

O1Wⁱ—Co—O1Wⁱⁱ	89.4 (3)	Co—O1W—H1	125.1
O1Wⁱ—Co—O1W	90.6 (3)	C1—N1—Co	180.0
O1Wⁱⁱ—Co—O1W	180.0	N1—C1—S1	179.999 (1)
O1Wⁱ—Co—O1Wⁱⁱⁱ	180.0	C2—N2—C3^iv	108.4 (2)
O1Wⁱⁱ—Co—O1Wⁱⁱⁱ	90.6 (3)	C2—N2—C3	107.8 (2)
O1W—Co—O1Wⁱⁱⁱ	89.4 (3)	C3^iv—N2—C3	108.44 (18)
O1Wⁱ—Co—N1ⁱⁱ	90.0	N2—C2—N2^v	112.2 (3)
O1Wⁱⁱ—Co—N1ⁱⁱ	90.0	N2—C2—H2	107 (2)
O1W—Co—N1ⁱⁱ	90.0	N2^v—C2—H2	111 (2)
O1Wⁱⁱⁱ—Co—N1ⁱⁱ	90.0	N2^vi—C3—N2	111.8 (3)
O1Wⁱ—Co—N1	90.0	N2^vi—C3—H3A	107 (2)
O1Wⁱⁱ—Co—N1	90.0	N2—C3—H3A	106 (2)
O1W—Co—N1	90.0	N2^vi—C3—H3B	112 (2)
O1Wⁱⁱⁱ—Co—N1	90.0	N2—C3—H3B	106 (2)
N1ⁱⁱ—Co—N1	180.0	H3A—C3—H3B	114 (3)

Symmetry codes: (i) −x+1, −y+1, z; (ii) −x+1, −y+1, −z+1; (iii) x, y, −z+1; (iv) −y+1/2, x+1/2, −z+1/2; (v) −x, −y+1, z; (vi) y−1/2, −x+1/2, −z+1/2.

Hydrogen-bond geometry (Å, º) top

D—H···A	D—H	H···A	D···A	D—H···A
O1W—H1···N2^vii	0.98	1.94	2.867 (3)	157.1

Symmetry code: (vii) −y+1, −x+1, z.

Experimental details

Crystal data
Chemical formula	[Co(H₂O)₄(NCS)₂]·2C₆H₁₂N₄
M_r	527.55
Crystal system, space group	Tetragonal, P4₂/mnm
Temperature (K)	293
a, c (Å)	9.4846 (4), 13.7339 (6)
V (Å³)	1235.47 (7)
Z	2
Radiation type	Mo Kα
µ (mm⁻¹)	0.90
Crystal size (mm)	0.43 × 0.40 × 0.25

Data collection
Diffractometer	Siemens SMART diffractometer
Absorption correction	Multi-scan (SADABS; Sheldrick, 1996)
T_min, T_max	0.685, 0.798
No. of measured, independent and observed [I > 2σ(I)] reflections	2871, 625, 554
R_int	0.024
(sin θ/λ)_max (Å⁻¹)	0.596

Refinement
R[F² > 2σ(F²)], wR(F²), S	0.034, 0.100, 1.06
No. of reflections	626
No. of parameters	58
H-atom treatment	H atoms treated by a mixture of independent and constrained refinement
Δρ_max, Δρ_min (e Å⁻³)	0.33, −0.46

Computer programs: SMART (Siemens, 1996), SAINT (Siemens, 1996), SHELXS97 (Sheldrick, 1997), SHELXL97 (Sheldrick, 1996), SHELXTL (Bruker, 1999).

Selected bond angles (º) top

O1Wⁱ—Co—O1W	90.6 (3)	C1—N1—Co	180.0
O1W—Co—O1Wⁱⁱ	89.4 (3)	N1—C1—S1	179.999 (1)

Symmetry codes: (i) −x+1, −y+1, z; (ii) x, y, −z+1.

Hydrogen-bond geometry (Å, º) top

D—H···A	D—H	H···A	D···A	D—H···A
O1W—H1···N2ⁱⁱⁱ	0.98	1.94	2.867 (3)	157.1

Symmetry code: (iii) −y+1, −x+1, z.

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