Magneto-structural correlation of hexakis-dmso cobalt(ii) complex

Abstract: The magnetostructural correlation of the hexakis-dmso cobalt(ii) complex, [Co(dmso)](BPh) (dmso: dimethylsulfoxide), was investigated by single-crystal X-ray diffraction study and magnetic measurements. The magnetic analysis concluded the negative Δ value (H = Δ(L - 2/3) + E(L - L) - (3/2)κλL·S + β[-(3/2)κL + gS]·H (u = x, y, z)), and this was explained by the tetragonal elongation of the octahedral geometry. The magnetostructural correlation was ascertained by both the angular overlap model calculation and th… Show more

“…The 5 E ground state directly indicated the negative ∆ value, which was consistent with the magnetic measurements. Judging from the negative sign of the ∆ value, the magnetic anisotropy is considered to be uniaxial, and the tetragonal compression axis (z axis) is considered to be the easy axis.In the case of the related cobalt(II) complex, [Co(dmso) 6 ][BPh 4 ] 2[14], tetragonal elongation (along the z axis) was observed, and judging from the large orbital reduction factor, close to the free-ion value, the effect of the dmso π orbitals was thought to be smaller than that in the present iron(II) complex. The pseudo-degenerate (d xz , d yz ) orbitals in the cobalt(II) complex were considered to be higher than the d xy orbital, affording the 4 E ground state.…”

“…In the related iron(II) complex 2, the [Fe(dmso)6] 2+ cation was more symmetrical that in 1, and the cation in 2 exactly belongs to the S6 point group. Each dmso moieti 2 showed the similar disorder at 213 K, suggesting the sulfur-inversion motion in the Among the six dmso moieties of the [Fe(dmso) 6 ] 2+ complex cation in 1, four of them were found to be disordered, suggesting the sulfur-inversion motion as well as the cobalt(II) and zinc(II) derivatives [14,15] [16], and [Fe(dmso) 6 ][BPh 4 ] 2 (1) complexes, the cobalt(II) and zinc(II) complexes form isomorphous crystals, while the iron(II) complex ( 1) is isomorphous to the magnesium (II) complex. In the magnesium (II) complex cation, a tetragonal compression was observed similar to 1.…”

“…Earlier, the crystal structure of [Fe(dmso) 6 ][SnCl 6 ] 2 (2) was reported [12], and phase transition behavior was investigated for [Fe(dmso) 6 ][ClO 4 ] 2 [13], but complex 1 has not been reported so far. Among the six dmso moieties of the [Fe(dmso)6] 2+ complex cation in 1, four of t were found to be disordered, suggesting the sulfur-inversion motion as well as th balt(II) and zinc(II) derivatives [14,15]. Among the crystals of [Co(dmso [16], and [Fe(dmso)6][BPh4]2 (1) complexes cobalt(II) and zinc(II) complexes form isomorphous crystals, while the iron(II) com ( 1) is isomorphous to the magnesium (II) complex.…”

Magneto-Structural Relationship of Tetragonally-Compressed Octahedral Iron(II) Complex Surrounded by a pseudo-S6 Symmetric Hexakis-Dimethylsulfoxide Environment

“…The 5 E ground state directly indicated the negative ∆ value, which was consistent with the magnetic measurements. Judging from the negative sign of the ∆ value, the magnetic anisotropy is considered to be uniaxial, and the tetragonal compression axis (z axis) is considered to be the easy axis.In the case of the related cobalt(II) complex, [Co(dmso) 6 ][BPh 4 ] 2[14], tetragonal elongation (along the z axis) was observed, and judging from the large orbital reduction factor, close to the free-ion value, the effect of the dmso π orbitals was thought to be smaller than that in the present iron(II) complex. The pseudo-degenerate (d xz , d yz ) orbitals in the cobalt(II) complex were considered to be higher than the d xy orbital, affording the 4 E ground state.…”

“…In the related iron(II) complex 2, the [Fe(dmso)6] 2+ cation was more symmetrical that in 1, and the cation in 2 exactly belongs to the S6 point group. Each dmso moieti 2 showed the similar disorder at 213 K, suggesting the sulfur-inversion motion in the Among the six dmso moieties of the [Fe(dmso) 6 ] 2+ complex cation in 1, four of them were found to be disordered, suggesting the sulfur-inversion motion as well as the cobalt(II) and zinc(II) derivatives [14,15] [16], and [Fe(dmso) 6 ][BPh 4 ] 2 (1) complexes, the cobalt(II) and zinc(II) complexes form isomorphous crystals, while the iron(II) complex ( 1) is isomorphous to the magnesium (II) complex. In the magnesium (II) complex cation, a tetragonal compression was observed similar to 1.…”

“…Earlier, the crystal structure of [Fe(dmso) 6 ][SnCl 6 ] 2 (2) was reported [12], and phase transition behavior was investigated for [Fe(dmso) 6 ][ClO 4 ] 2 [13], but complex 1 has not been reported so far. Among the six dmso moieties of the [Fe(dmso)6] 2+ complex cation in 1, four of t were found to be disordered, suggesting the sulfur-inversion motion as well as th balt(II) and zinc(II) derivatives [14,15]. Among the crystals of [Co(dmso [16], and [Fe(dmso)6][BPh4]2 (1) complexes cobalt(II) and zinc(II) complexes form isomorphous crystals, while the iron(II) com ( 1) is isomorphous to the magnesium (II) complex.…”

Magneto-Structural Relationship of Tetragonally-Compressed Octahedral Iron(II) Complex Surrounded by a pseudo-S6 Symmetric Hexakis-Dimethylsulfoxide Environment

“…The dmso ligand coordinated to the central nickel(II) ion through the oxygen atom, and the sulfur atom was disordered [occupancies: S(1), 0.7757 (19); S(1B), 0.2243 (19)]. This is a typical phenomenon for an oxygen-coordinating dmso ligand due to the sulfur inversion [26,27]. The coordination geometry around the central nickel(II) ion was octahedral with NO 5 donor atoms.…”

Relationship between Structure and Zero-Field Splitting of Octahedral Nickel(II) Complexes with a Low-Symmetric Tetradentate Ligand

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