Issue 28, 2022

Recent findings and future directions in photosynthetic hydrogen evolution using polypyridine cobalt complexes

Abstract

The production of hydrogen gas using water as the molecular substrate currently represents one of the most challenging and appealing reaction schemes in the field of artificial photosynthesis (AP), i.e., the conversion of solar energy into fuels. In order to be efficient, this process requires a suitable combination of a light-harvesting sensitizer, an electron donor, and a hydrogen-evolving catalyst (HEC). In the last few years, cobalt polypyridine complexes have been discovered to be competent molecular catalysts for the hydrogen evolution reaction (HER), showing enhanced efficiency and stability with respect to previously reported molecular species. This perspective collects information about all relevant cobalt polypyridine complexes employed for the HER in aqueous solution under light-driven conditions in the presence of Ru(bpy)32+ (where bpy = 2,2′-bipyridine) as the photosensitizer and ascorbate as the electron donor, trying to highlight promising chemical motifs and aiming towards efficient catalytic activity in order to stimulate further efforts to design molecular catalysts for hydrogen generation and allow their profitable implementation in devices. As a final step, a few suggestions for the benchmarking of HECs employed under light-driven conditions are introduced.

Graphical abstract: Recent findings and future directions in photosynthetic hydrogen evolution using polypyridine cobalt complexes

Article information

Article type
Perspective
Submitted
15 fev 2022
Accepted
14 abr 2022
First published
14 abr 2022
This article is Open Access
Creative Commons BY license

Dalton Trans., 2022,51, 10658-10673

Recent findings and future directions in photosynthetic hydrogen evolution using polypyridine cobalt complexes

F. Droghetti, F. Lucarini, A. Molinari, A. Ruggi and M. Natali, Dalton Trans., 2022, 51, 10658 DOI: 10.1039/D2DT00476C

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