Issue 45, 2021

Rich redox-activity and solvatochromism in a family of heteroleptic cobalt complexes

Abstract

The combination of redox-active metals with redox-active ligands can lead to interesting charge transfer behaviours, including valence tautomerism and solvatochromism. With the aim of investigating a relatively underexplored redox-active metal/redox-active ligand combination, complexes [CoII(acac)2(X-BIAN)] (acac = acetylacetonate; X-BIAN = bis(4-X-phenyl)iminoacenaphthene; 1: X = –CF3, 2: X = –Cl, 3: X = –H, 4: X = –Me) and [CoIII(acac)2(Me-BIAN)]+ (5+) have been synthesised and characterised. At all temperatures investigated, and in both the solid and solution state, complexes 1–4 exist in a CoII-BIAN0 charge distribution, while 5+ adopts a CoIII-BIAN0 charge distribution. In the case of 1–4, the potential CoIII-BIAN˙ valence tautomer is inaccesible; the energy ordering between the ground CoII-BIAN0 state and the excited CoIII-BIAN˙ state must be reversed in order for an entropically driven interconversion to be possible. The energy gap between the states can be monitored via metal-to-ligand charge transfer bands in the visible region. We demonstrate tuning of this energy gap by varying the electronic properties of the BIAN ligand, as well as by controlling the molecular environment through solvent choice. Solvatochromic analysis, in combination with crystallographic evidence, allows elucidation of the specific solvent–solute interactions that govern the molecular behaviour of 1–4, affording insights that can inform potential future applications in sensing and switching.

Graphical abstract: Rich redox-activity and solvatochromism in a family of heteroleptic cobalt complexes

Supplementary files

Article information

Article type
Paper
Submitted
01 Oct 2021
Accepted
28 Oct 2021
First published
04 Nov 2021
This article is Open Access
Creative Commons BY-NC license

Dalton Trans., 2021,50, 16631-16646

Rich redox-activity and solvatochromism in a family of heteroleptic cobalt complexes

V. L. Nadurata, M. A. Hay, J. T. Janetzki, G. K. Gransbury and C. Boskovic, Dalton Trans., 2021, 50, 16631 DOI: 10.1039/D1DT03327A

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