Electrochemical alcohol oxidation reaction on Precious‐Metal‐Free catalysts: Mechanism, activity, and selectivity

Jiawei Shi; Jun Ma; Enze Ma; Jing Li; Yang Hu; Liyuan Fan; Weiwei Cai

doi:10.1002/cnl2.116

Carbon Neutralization (Mar 2024)

Electrochemical alcohol oxidation reaction on Precious‐Metal‐Free catalysts: Mechanism, activity, and selectivity

Jiawei Shi,
Jun Ma,
Enze Ma,
Jing Li,
Yang Hu,
Liyuan Fan,
Weiwei Cai

Affiliations

Jiawei Shi: Hydrogen Energy Technology Innovation Center of Hubei Province, Faculty of Materials Science and Chemistry China University of Geosciences Wuhan Hubei China
Jun Ma: Hydrogen Energy Technology Innovation Center of Hubei Province, Faculty of Materials Science and Chemistry China University of Geosciences Wuhan Hubei China
Enze Ma: Hydrogen Energy Technology Innovation Center of Hubei Province, Faculty of Materials Science and Chemistry China University of Geosciences Wuhan Hubei China
Jing Li: Hydrogen Energy Technology Innovation Center of Hubei Province, Faculty of Materials Science and Chemistry China University of Geosciences Wuhan Hubei China
Yang Hu: Department of Energy Conversion and Storage Technical University of Denmark Lyngby Denmark
Liyuan Fan: College of Science and Engineering James Cook University Townsville Australia
Weiwei Cai: Hydrogen Energy Technology Innovation Center of Hubei Province, Faculty of Materials Science and Chemistry China University of Geosciences Wuhan Hubei China

DOI: https://doi.org/10.1002/cnl2.116
Journal volume & issue: Vol. 3, no. 2
pp. 285 – 312

Abstract

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Abstract The electrochemical alcohol oxidation reaction (AOR) is pivotal for the development of sustainable energy. The complete oxidation of alcohols has attracted extensive attention as a vital process in fuel cells. Moreover, as an alternative reaction to the oxygen evolution reaction, the selective oxidation of alcohols emerges as an effective means to lower the energy expenditure associated with electrolytic hydrogen production while yielding high‐value products. Nonprecious metal materials have been widely applied in the selective oxidation catalysis of alcohols due to their cost‐effectiveness and excellent durability. In recent years, leveraging the advantages of nonprecious metal materials in electrocatalytic AOR, researchers have delved into catalytic mechanisms and various efficient catalysts have been fabricated and evaluated. This review provides an overview of the current advancements in the electrocatalytic selective oxidation of diverse alcohols and the catalytic systems centered around nonprecious metal materials. It systematically summarizes the shared traits and distinctions in catalytic reaction characteristics across various systems, thereby laying the theoretical foundation for developing novel catalyst systems that are efficient, stable, and highly selective. This review will facilitate the utilization of nonprecious metal catalysts further toward the electrocatalytic oxidation of alcohols.

Published in Carbon Neutralization

ISSN: 2769-3333 (Print); 2769-3325 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Technology: Mechanical engineering and machinery: Renewable energy sources; Technology: Electrical engineering. Electronics. Nuclear engineering: Production of electric energy or power. Powerplants. Central stations
Website: https://onlinelibrary.wiley.com/journal/27693325

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