Abstract
The synthesis and structures of Fe, Co, and Zn halide complexes [MX(2)(H(2)L)] (M = Fe, X = Br; M = Co, Zn, X = Cl) of the N-donor extended dipyrromethane ligand H(2)L are described, from which it is clear that bond rearrangements from imine-pyrrole to amine-azafulvene tautomers occur on metal co-ordination, both in the solid state and in solution. In the structure of [FeBr(2)(H(2)L)], this H-migration results in a pendant amine that is involved in both inter- and intramolecular hydrogen bonds to the bromide ligands, so forming a dimer. As the tautomerisation renders the N-H protons less acidic, metal-based ligand substitution reactions can occur in favour of deprotonation. As such, the reaction between [MCl(2)(H(2)L)] (M = Co, Zn) and NaN(3) results in the formation of the bis(azide) complexes [M(N(3))(2)(H(2)L)] which for Co displays both inter- and intramolecular N-H...N(3)-Co hydrogen bonds in the solid state. In contrast, reactions of the dihalides with the lithium bases LiNMe(2) or LiMe (M = Fe), or reduction reactions with C(8)K (M = Fe, Co) result in the formation of the known dinuclear helicates [M(2)(L)(2)].
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