Literature DB >> 21580845

Bis{2-[(E)-benzyl-imino-meth-yl]-4,6-dibromo-phenolato-κN,O}cobalt(II).

Abstract

In the title compound, [Co(C(14)H(10)Br(2)NO)(2)], the Co(II) ion is coordinated by an O and an N atom from two equivalent 2-[(E)-benzyl-imino-meth-yl]-4,6-dibromo-phenolate ligands, displaying a distorted tetra-hedral geometry. The Co(II) ion occupies a special position on a twofold rotation axis and thus the mol-ecular symmetry of the complex is C(2). The two phenolate rings are perpendicular [89.8 (3)°].

Entities: Chemical Disease Gene Species

Year: 2008 PMID： 21580845 PMCID： PMC2959770 DOI： 10.1107/S1600536808032303

Source DB: PubMed Journal: Acta Crystallogr Sect E Struct Rep Online ISSN： 1600-5368

Related literature

For general background on the applications of Schiff bases, see: Vigato et al. (2007 ▶).

Experimental

Crystal data

[Co(C14H10Br2NO)2] M = 795.03 Monoclinic, a = 23.875 (3) Å b = 4.8190 (6) Å c = 24.209 (3) Å β = 105.8730 (1)° V = 2679.1 (6) Å3 Z = 4 Mo Kα radiation μ = 6.64 mm−1 T = 296 (2) K 0.30 × 0.26 × 0.22 mm

Data collection

Bruker SMART APEXII CCD diffractometer Absorption correction: multi-scan (SADABS; Sheldrick, 2000 ▶) T min = 0.165, T max = 0.232 11046 measured reflections 3094 independent reflections 2627 reflections with I > 2σ(I) R int = 0.027

Refinement

R[F 2 > 2σ(F 2)] = 0.052 wR(F 2) = 0.172 S = 1.07 3094 reflections 168 parameters H-atom parameters constrained Δρmax = 0.98 e Å−3 Δρmin = −1.46 e Å−3 Data collection: APEX2 (Bruker, 2004 ▶); cell refinement: SAINT (Bruker, 2004 ▶); data reduction: SAINT; program(s) used to solve structure: SHELXS97 (Sheldrick, 2008 ▶); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008 ▶); molecular graphics: XP in SHELXTL (Sheldrick, 2008 ▶); software used to prepare material for publication: XP in SHELXTL. Crystal structure: contains datablocks global, I. DOI: 10.1107/S1600536808032303/kp2194sup1.cif Structure factors: contains datablocks I. DOI: 10.1107/S1600536808032303/kp2194Isup2.hkl Additional supplementary materials: crystallographic information; 3D view; checkCIF report

[Co(C₁₄H₁₀Br₂NO)₂]	F(000) = 1540
M_r = 795.03	D_x = 1.971 Mg m⁻³
Monoclinic, C2/c	Mo Kα radiation, λ = 0.71073 Å
Hall symbol: -C 2yc	Cell parameters from 2269 reflections
a = 23.875 (3) Å	θ = 1.0–27.7°
b = 4.8190 (6) Å	µ = 6.64 mm⁻¹
c = 24.209 (3) Å	T = 296 K
β = 105.873 (1)°	Block, brown
V = 2679.1 (6) Å³	0.30 × 0.26 × 0.22 mm
Z = 4

Bruker SMART APEXII CCD diffractometer	3094 independent reflections
Radiation source: fine-focus sealed tube	2627 reflections with I > 2σ(I)
graphite	R_int = 0.027
φ and ω scans	θ_max = 27.7°, θ_min = 1.8°
Absorption correction: multi-scan (SADABS; Sheldrick, 2000)	h = −30→30
T_min = 0.165, T_max = 0.232	k = −6→6
11046 measured reflections	l = −30→31

Refinement on F²	Primary atom site location: structure-invariant direct methods
Least-squares matrix: full	Secondary atom site location: difference Fourier map
R[F² > 2σ(F²)] = 0.052	Hydrogen site location: inferred from neighbouring sites
wR(F²) = 0.172	H-atom parameters constrained
S = 1.07	w = 1/[σ²(F_o²) + (0.1045P)² + 20.5054P] where P = (F_o² + 2F_c²)/3
3094 reflections	(Δ/σ)_max < 0.001
168 parameters	Δρ_max = 0.98 e Å⁻³
0 restraints	Δρ_min = −1.45 e Å⁻³

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. 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 > 2sigma(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.

	x	y	z	U_iso*/U_eq
Co1	0.0000	0.9824 (2)	0.2500	0.0481 (3)
Br1	0.25733 (3)	0.73207 (15)	0.14570 (3)	0.0446 (2)
Br2	0.06423 (3)	1.45190 (13)	0.09822 (2)	0.0389 (2)
O1	0.04168 (16)	1.1622 (8)	0.20173 (16)	0.0316 (8)
N1	−0.06936 (19)	0.7651 (9)	0.20554 (18)	0.0269 (9)
C1	0.0898 (2)	1.0738 (10)	0.1927 (2)	0.0260 (10)
C2	0.1095 (2)	1.1793 (11)	0.1464 (2)	0.0285 (10)
C3	0.1595 (2)	1.0865 (12)	0.1339 (2)	0.0313 (11)
H3A	0.1707	1.1621	0.1032	0.038*
C4	0.1925 (2)	0.8813 (13)	0.1672 (2)	0.0321 (11)
C5	0.1772 (2)	0.7738 (12)	0.2136 (2)	0.0336 (11)
H5A	0.2005	0.6395	0.2364	0.040*
C6	0.1268 (2)	0.8649 (12)	0.2269 (2)	0.0281 (10)
C7	−0.1144 (2)	0.7334 (12)	0.2242 (2)	0.0309 (11)
H7A	−0.1425	0.6106	0.2037	0.037*
C8	−0.0702 (3)	0.6166 (12)	0.1512 (2)	0.0327 (11)
H8A	−0.0934	0.4492	0.1482	0.039*
H8B	−0.0309	0.5631	0.1517	0.039*
C9	−0.0954 (3)	0.7997 (11)	0.1000 (2)	0.0320 (11)
C10	−0.1555 (3)	0.8139 (16)	0.0759 (3)	0.0483 (16)
H10A	−0.1807	0.7055	0.0901	0.058*
C11	−0.1773 (4)	0.9955 (19)	0.0296 (3)	0.059 (2)
H11A	−0.2174	1.0061	0.0137	0.071*
C12	−0.1433 (4)	1.1523 (16)	0.0075 (3)	0.0555 (19)
H12A	−0.1593	1.2715	−0.0229	0.067*
C13	−0.0827 (4)	1.1356 (17)	0.0309 (3)	0.0533 (17)
H13A	−0.0581	1.2426	0.0157	0.064*
C14	−0.0597 (3)	0.9608 (14)	0.0764 (3)	0.0420 (14)
H14A	−0.0195	0.9504	0.0915	0.050*

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
Co1	0.0443 (5)	0.0596 (6)	0.0428 (5)	0.000	0.0163 (4)	0.000
Br1	0.0289 (3)	0.0637 (4)	0.0467 (4)	0.0012 (2)	0.0197 (3)	−0.0043 (3)
Br2	0.0460 (4)	0.0389 (3)	0.0348 (3)	0.0015 (2)	0.0160 (3)	0.0099 (2)
O1	0.0320 (19)	0.039 (2)	0.0299 (19)	0.0049 (16)	0.0186 (16)	0.0067 (16)
N1	0.027 (2)	0.033 (2)	0.021 (2)	0.0010 (16)	0.0071 (17)	0.0003 (16)
C1	0.028 (2)	0.030 (2)	0.022 (2)	−0.0039 (19)	0.0092 (19)	−0.0012 (18)
C2	0.033 (3)	0.031 (3)	0.024 (2)	−0.006 (2)	0.011 (2)	−0.0022 (19)
C3	0.032 (3)	0.038 (3)	0.028 (3)	−0.010 (2)	0.014 (2)	−0.005 (2)
C4	0.026 (2)	0.042 (3)	0.032 (3)	−0.004 (2)	0.012 (2)	−0.006 (2)
C5	0.027 (3)	0.044 (3)	0.029 (3)	0.001 (2)	0.006 (2)	0.000 (2)
C6	0.026 (2)	0.038 (3)	0.022 (2)	−0.002 (2)	0.0078 (19)	−0.001 (2)
C7	0.027 (3)	0.042 (3)	0.023 (2)	−0.004 (2)	0.006 (2)	−0.003 (2)
C8	0.041 (3)	0.034 (3)	0.025 (2)	0.006 (2)	0.013 (2)	−0.002 (2)
C9	0.045 (3)	0.031 (3)	0.023 (2)	0.001 (2)	0.013 (2)	−0.0074 (19)
C10	0.043 (4)	0.061 (4)	0.042 (4)	0.007 (3)	0.014 (3)	0.004 (3)
C11	0.048 (4)	0.076 (5)	0.046 (4)	0.016 (4)	0.000 (3)	0.003 (4)
C12	0.084 (6)	0.051 (4)	0.025 (3)	0.005 (4)	0.005 (3)	0.001 (3)
C13	0.065 (5)	0.056 (4)	0.036 (3)	−0.011 (4)	0.010 (3)	0.006 (3)
C14	0.044 (3)	0.052 (4)	0.029 (3)	−0.007 (3)	0.008 (3)	0.000 (2)

Co1—O1ⁱ	1.935 (4)	C6—C7ⁱ	1.441 (7)
Co1—O1	1.935 (4)	C7—C6ⁱ	1.441 (7)
Co1—N1	2.005 (4)	C7—H7A	0.9300
Co1—N1ⁱ	2.005 (4)	C8—C9	1.505 (8)
Br1—C4	1.902 (5)	C8—H8A	0.9700
Br2—C2	1.888 (6)	C8—H8B	0.9700
O1—C1	1.298 (6)	C9—C14	1.388 (8)
N1—C7	1.285 (7)	C9—C10	1.396 (9)
N1—C8	1.493 (7)	C10—C11	1.404 (11)
C1—C2	1.424 (7)	C10—H10A	0.9300
C1—C6	1.442 (7)	C11—C12	1.323 (12)
C2—C3	1.383 (7)	C11—H11A	0.9300
C3—C4	1.379 (8)	C12—C13	1.405 (11)
C3—H3A	0.9300	C12—H12A	0.9300
C4—C5	1.376 (8)	C13—C14	1.375 (10)
C5—C6	1.399 (8)	C13—H13A	0.9300
C5—H5A	0.9300	C14—H14A	0.9300

O1ⁱ—Co1—O1	126.8 (2)	N1—C7—C6ⁱ	127.9 (5)
O1ⁱ—Co1—N1	94.16 (17)	N1—C7—H7A	116.0
O1—Co1—N1	113.29 (17)	C6ⁱ—C7—H7A	116.0
O1ⁱ—Co1—N1ⁱ	113.29 (17)	N1—C8—C9	110.5 (4)
O1—Co1—N1ⁱ	94.16 (17)	N1—C8—H8A	109.6
N1—Co1—N1ⁱ	117.1 (3)	C9—C8—H8A	109.6
C1—O1—Co1	125.4 (3)	N1—C8—H8B	109.6
C7—N1—C8	116.2 (5)	C9—C8—H8B	109.6
C7—N1—Co1	121.4 (4)	H8A—C8—H8B	108.1
C8—N1—Co1	122.3 (4)	C14—C9—C10	118.5 (6)
O1—C1—C2	120.9 (5)	C14—C9—C8	121.1 (6)
O1—C1—C6	124.4 (4)	C10—C9—C8	120.5 (6)
C2—C1—C6	114.7 (4)	C9—C10—C11	118.6 (7)
C3—C2—C1	123.3 (5)	C9—C10—H10A	120.7
C3—C2—Br2	118.2 (4)	C11—C10—H10A	120.7
C1—C2—Br2	118.6 (4)	C12—C11—C10	123.0 (7)
C4—C3—C2	119.6 (5)	C12—C11—H11A	118.5
C4—C3—H3A	120.2	C10—C11—H11A	118.5
C2—C3—H3A	120.2	C11—C12—C13	118.8 (7)
C5—C4—C3	120.6 (5)	C11—C12—H12A	120.6
C5—C4—Br1	120.0 (5)	C13—C12—H12A	120.6
C3—C4—Br1	119.3 (4)	C14—C13—C12	120.0 (7)
C4—C5—C6	120.6 (5)	C14—C13—H13A	120.0
C4—C5—H5A	119.7	C12—C13—H13A	120.0
C6—C5—H5A	119.7	C13—C14—C9	121.2 (7)
C5—C6—C7ⁱ	115.6 (5)	C13—C14—H14A	119.4
C5—C6—C1	121.2 (5)	C9—C14—H14A	119.4
C7ⁱ—C6—C1	123.2 (5)

Co1—O1	1.935 (4)
Co1—N1	2.005 (4)

O1ⁱ—Co1—O1	126.8 (2)
O1ⁱ—Co1—N1	94.16 (17)
O1—Co1—N1	113.29 (17)
N1—Co1—N1ⁱ	117.1 (3)

Symmetry code: (i) .

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1. A short history of SHELX.

Authors: George M Sheldrick
Journal: Acta Crystallogr A Date: 2007-12-21 Impact factor: 2.290

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3 in total