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Hydrogen Evolution Mediated by Cobalt Diimine-Dioxime Complexes: Insights into the Role of the Ligand Acid/Base Functionalities.

Abstract The benchmarking of the performance for H2 evolution of cobalt diimine-dioxime catalysts is provided based on a comprehensive study of their catalytic mechanism. The latter follows an ECE'CC pathway with intermediate formation of a Co(II)-hydride intermediate and second protonation possibly at a basic site of the ligand, acting as a proton relay. This suggests an intramolecular coupling between the hydride and protonated ligand as the proton concentration-independent rate-determining step controlling the turnover frequency for H2 evolution.

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Titre: Hydrogen Evolution Mediated by Cobalt Diimine-Dioxime Complexes: Insights into the Role of the Ligand Acid/Base Functionalities.
Type de publication: Article de revue
Année de publication: 2021
Auteurs: Sun, Dongyue, Harshan Aparna Karippara, Pécaut Jacques, Hammes-Schiffer Sharon, Costentin Cyrille, and Artero Vincent
Revue: ChemElectroChem
Volume: 8
Pagination: 2671-2679
Mots-clés: Cobalt hydride Cyclic voltammetry Hydrogen mechanism molecular catalysis Proton Relay
URL: https://chemistry-europe.onlinelibrary.wiley.com/doi/abs/10.1002/celc.202100413
DOI: 10.1002/celc.202100413

Soumis le 13 janvier 2022

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Hydrogen Evolution Mediated by Cobalt Diimine-Dioxime Complexes: Insights into the Role of the Ligand Acid/Base Functionalities.

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