Synthesis, crystal structure and properties of trigonal bipyramidal [M(L-5)(2)(H2O)]center dot H2O complexes [M = cobalt(II) (S=3/2) or copper(II) (S=1/2); HL5 = N-(2-chloro-6-methylphenyl)pyridine-2-carboxamide]

Using a bidentate ligand N-(2-chloro-6-methylphenyl)pyridine-2-carboxamide (HL5), in its deprotonated form, two new five-co-ordinate complexes of comp osition [M(L-5)(2)(H2O)]. H2O (M=Co-II 1 or Cu-II 2) have been prepared and characterized including X-ray crystallography. The co-ordination geometry at Co-II and Cu-II is approximately trigonal bipyramidal (two deprotonated amide nitrogens and a water molecule in the equatorial plane and two pyridi nes in the axial positions), being more distorted in the case of Cu-II. The observed distortion is caused by (i) a small bite angle of the chelating l igand and (ii) the presence of two ortho substituents, a chloro and a methy l group, on the phenyl ring (steric effect). To the best of our knowledge, 1 represents the first structurally characterized mononuclear high-spin cob alt(II) complex with a pyridine amide ligand. The magnetic moments of 1 and 2 at 300 K reveal that the compounds are paramagnetic (1 has S=3/2 and 2 h as S=1/2), both as solids and in dmf solution. Temperature dependent magnet ic susceptibility measurements confirmed their spin state. The stereochemis try of the cobalt(II) centre in 1 does not change to any measureable extent on dissolution in dmf (cf. solid and solution state absorption spectra). T he geometry of the copper(II) centre in 2 observed in the solid state is no t retained in dmf solution (absorption spectra), changing to a tetragonal s tereochemistry. Cyclic voltammetric measurements (dmf solution; glassy carb on electrode) on 1 reveal an oxidative response at 0.48 V vs. saturated cal omel electrode (SCE) and a reductive response at -1.66 V corresponding to C o-III-Co-II and Co-II-Co-I redox couples, respectively. For 2 the Cu-II-Cu- I process was observed at -0.53 V vs. SCE.