Abstract
A diprotic bis(β-thioketoimine) ligand featuring a flexible 4,4’-methylbis(aniline) linker, H22, was synthesised via treatment of the corresponding bis(β-ketoimine) with Lawesson’s reagent. Proligand H22 underwent lithiation and coordination with one equivalent of d-block metal(II) chlorides MCl2(THF)x (M = Fe, Co and Zn) to yield a corresponding series of homoleptic dinuclear complexes, [M2(μ-2)2]. X-ray diffraction analysis reveals a tetrahedral geometry for the two metals and a double-stranded helicate structure arising from inter-strand face-face π-stacking. These interactions create a helical ‘twist’ of ca. 70°. Utilising a bulky mononucleating β-thioketoiminate ligand, [3]–, the analogous series of heteroleptic monometallic complexes, [M(3)2] (M = Fe, Co and Zn), were prepared and characterised by spectroscopic, analytical and X-ray diffraction techniques. A comprehensive DFT study of all complexes reveals a stronger M–S bonding compared to M–N due to a higher degree of covalency. Solution magnetic studies and Natural Bonding Orbital calculations on the mono- and dinuclear iron and cobalt complexes are consistent with high-spin tetrahedral Fe(II) and Co(II) centres, and cyclic voltammetry reveals both oxidation and reduction processes are accessible.
Supplementary materials
Title
Electronic Supplementary Information
Description
Experimental details, Additional characterisation data (NMR, MS, CV, IR, XRD), Additional computational data (DFT optimised structures, Comparison between observed and calculated structure, Frontier orbitals using PBE0 and BHandHLYP, Bader analysis, Atomic charges).
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