Issue 9, 2024

Recent progress in transition metal based catalysts and mechanism analysis for alcohol electrooxidation reactions

Abstract

In order to address energy and environmental challenges effectively, there is a need to promote renewable energy-driven electrochemical conversion technologies, particularly electrosynthesis. Electrosynthesis has the potential to convert abundant molecules into valuable chemicals and fuels. However, the widespread adoption of electrosynthesis is often hindered by the slow oxygen evolution reaction (OER). To overcome this limitation, we can employ the more efficient alcohol electrooxidation reaction (AOR), utilizing renewable biomass-derived alcohols as an alternative to OER for producing high-value chemicals. Consequently, the development of efficient AOR catalysts, in conjunction with cathodic reduction reactions (hydrogen evolution, oxygen, and nitrogen electroreduction, etc.), is crucial for sustainable and environmentally-friendly advancements. A thorough understanding of AOR mechanisms is essential for catalyst design and can be achieved through the utilization of in situ characterization techniques and density functional theory (DFT) calculations. This review summarizes recent progress in AOR catalysts, with a particular focus on the electrooxidation of monohydric alcohols, polyols, and associated studies on reaction mechanisms. Additionally, the review identifies key factors impeding AOR development and provides insights into future prospects.

Graphical abstract: Recent progress in transition metal based catalysts and mechanism analysis for alcohol electrooxidation reactions

Article information

Article type
Tutorial Review
Submitted
15 Jan 2024
Accepted
25 Mar 2024
First published
01 Apr 2024
This article is Open Access
Creative Commons BY license

Green Chem., 2024,26, 4987-5003

Recent progress in transition metal based catalysts and mechanism analysis for alcohol electrooxidation reactions

Y. Zhao, E. M. Björk, Y. Yan, P. Schaaf and D. Wang, Green Chem., 2024, 26, 4987 DOI: 10.1039/D4GC00227J

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