Spin crossover in iron(III) Schiff-base 1-D chain complexes

Abstract

A series of iron(III) 1-D polymeric materials of the general formula [Fe(III)(Schiff-base)(L)](BPh₄).n(CH₃OH) (Schiff base = N,N′-ethylenebis(salicylaldimine) (H₂salen), N,N′-o-phenylenebis(salicylaldimine) (H₂salophen) and N,N′-ethylenebis(acety1acetone)-2,2′-imine (H₂ acen); L = bridging di-pyridyl or di-imidazole ligand, n = 0-4) and analogues therein, have been synthesised and structurally and magnetically characterised. In this series, a range of structural motifs are observed including linear 1-D chains, hydrogen-bonded chains, a ‘hybrid’ 1-D chain-and -dimer compound and a hydrogen-bonded dinuclear material; all exhibit extensive intermolecular interactions. The magnetic consequences of varying both the equatorial Schiff-base ligands and axial bridging ligands have been investigated. Overall, we find that, independent of the axial bridging ligand employed, the salen equatorial ligand results in a high spin character and the acen ligand results in spin crossover character, generally with a spin transition of a gradual nature. Variations in magnetic behaviour can be rationalized, in part, in terms of the C₂N₂ backbone conformation of the equatorial Schiff base ligand, which may either inhibit or allow a spin transition.