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Site specific redox properties in ligand differentiated di-nickel complexes inspired by the acetyl CoA synthase active site.

Manuel QuirozManish JanaKaiyang LiuNattamai BhuvaneshMichael B HallMarcetta Y Darensbourg
Published in: Dalton transactions (Cambridge, England : 2003) (2024)
Bimetallic transition metal complexes with site-specific redox properties offer a versatile platform for understanding electron polarization, intramolecular electron transfer processes, and customizing electronic and magnetic properties that might impact reactivity and catalyst design. Inspired by the dissymmetric nickel sites in the Acetyl CoA Synthase (ACS) Active Site, three new bimetallic Ni(N 2 S 2 )-Ni(S 2 C 2 R 2 ) complexes based on Ni(N 2 S 2 ) metalloligand donor synthons, Ni d , in mimicry of the nickel site distal to the redox-active iron sulfur cluster of ACS, and nickel dithiolene receiver units, designated as Ni p , the nickel proximal to the 4Fe4S cluster, were combined to explore the influence of ligand environment on electronic structure and redox properties of each unit. The combination of synthons gave a matrix of three S-bridged dinickel complexes, characterized by X-ray crystallography, and appropriate spectroscopies. Computational modeling is connected to the electronic characteristics of the nickel donor and receiver units. This study demonstrated the intricacies of identifying sites of electrochemical redox processes, within multi-metallic systems containing non-innocent ligands.
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