The stabilisation of low oxidation state transition metal complexes. Preparation and electrochemistry of cobalt(II) unsaturated macrocyclic complexes and the stabilisation of a cobalt(I) derivative. Crystal and molecular structures of [CoII(L)(CH3OH)2][BF4]2and [CoI(L){P(OCH3)3}][BF4

Abstract

A series of seven cobalt(II) complexes [CoII(L)X2]2+, based on the planar macrocyclic ligand L derived from 2,9-di(1-methylhydrazino)-1,10-phenanthroline and 2,6-diacetylpyridine have been prepared with varying axial ligands X[X = H2O, pyridine(py), 4-aminopyridine (apy), 4-cyanopyridine (cpy), 4-dimethylaminopyridine (dap), imidazole (im), 1-methylimidazole (mim), quinoline (quin), pyrazine (pyz), or 1,4-diazabicyclo[2.2.2]octane (dabco)]. The single-crystal X-ray structure of the bis-methanol adduct [CoII(C23H21N7)(CH3OH)2][BF4]2, which crystallises in space group P21/n with a= 12.110(8), b= 17.205(9), c= 15.411(8)A, β= 112.62(3)°, and Z= 4, was solved by a combination of Patterson and Fourier techniques, and refined by blocked full-matrix least sauares to R= 0.088 for 1 754 observed diffractometer data. The structure confirms the seven-co-ordinate geometry for this complex with the cobalt ion in the plane of the macrocyclic ligand. Cyclic voltammetry of the complexes in acetonitrile at a platinum microsphere shows a reversible reduction wave near E½=–1.4 V which may be tentatively assigned to the initial formation of a highly unstable cobalt(II) ligand radical species. Addition of P(OCH3)3 to a solution of [Co(L)(H2O)2][BF4]2 in acetonitrile shifts the reversible reduction wave from E½=–1.43 to –1.199 V; electrochemical reduction of such a solution by controlled potential electrolysis yields the metal-reduced cobalt(I) complex [CoI(C23H21N7){P(OCH3)3}][BF4]. The single-crystal X-ray structure shows it to crystallise in space group P21/n with a= 10.745(4), b= 10.721(5), c= 24.722(8)A, β= 92.57(2)°, and Z= 4. The structure was solved by a combination of Patterson and Fourier-difference techniques, and refined by blocked-cascade least squares to R= 0.069 for 2 519 observed diffractometer data. The cobalt ion is displaced out of the plane of the five donor nitrogen atoms by 0.36 A towards the phosphorus atom. The macrocyclic ligand is not planar but has the shape of a shallow dome, the distortion being away from the axial ligand. The stabilisation of the metal-reduced cobalt(I) complex is attributed to the combined π-acceptor properties of the unsaturated macro-cyclic ligand and the axial P(OCH3)3 ligand.