Constant no more: reevaluating Hammett constants through spin-crossover

Abstract

A popular tool for predicting substitution effects on chemical reactivity and catalytic activity, binding affinity of drugs and spin-crossover (SCO) behavior of metal complexes, the Hammett constants are frequently criticized. Among others, they define the acetoxy group as electron-withdrawing (EWG), although it activates electrophilic substitution in the benzene ring as an electron donor (EDG). We argue that SCO compounds provide an excellent platform for reevaluating the Hammett constants, with the SCO midpoint temperature as a quantitative measure of even subtle changes in organic ligands. For a new series of iron(II) complexes of bis(pyrazol-3-yl)pyridines (3-bpp), this measure showed a contradictory increase by both EWG and EDG. Yet, it correlated linearly with NMR chemical shifts, metal-ligand bond lengths and energies. Together, these correlations offered the Hammett constants that correctly identified the acetoxy group as an EDG, among others. The new constants allowed us not only to explain the SCO behaviour of metal complexes with 3-bpp and other popular families of N-donor ligands but also to predict the SCO midpoint temperature with high accuracy. Beyond the SCO realm, they were extended to rationalize the outcomes of Diels-Alder and polymerization reactions. By using metal-ligand bond lengths rou-tinely measured for coordination compounds, the Hammett constants can be further ‘refined’ to help designing new, more efficient catalysts, drugs and materials for advanced applications in quantum technologies and (bio)sensing, energy conver-sion and smart/self-healing coatings.

Supplementary files

Article information

Article type
Research Article
Submitted
21 May 2025
Accepted
09 Aug 2025
First published
11 Aug 2025

Inorg. Chem. Front., 2025, Accepted Manuscript

Constant no more: reevaluating Hammett constants through spin-crossover

I. A. Nikovskiy, D. Y. Aleshin, A. A. Anisimov, V. Novikov and Y. V. Nelyubina, Inorg. Chem. Front., 2025, Accepted Manuscript , DOI: 10.1039/D5QI01184A

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