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
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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.

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无贵金属催化剂上的电化学醇氧化反应:机理、活性和选择性
电化学酒精氧化反应(AOR)对于可持续能源的开发至关重要。作为燃料电池的一个重要过程,醇的完全氧化已引起广泛关注。此外,作为氧进化反应的替代反应,醇的选择性氧化是降低与电解制氢相关的能源消耗的有效手段,同时还能产生高价值的产品。非贵金属材料因其成本效益高、耐久性好而被广泛应用于醇的选择性氧化催化。近年来,利用非贵金属材料在电催化 AOR 中的优势,研究人员深入研究了催化机理,并制备和评估了各种高效催化剂。本综述概述了目前在电催化选择性氧化各种醇类以及以非贵金属材料为中心的催化系统方面取得的进展。它系统地总结了各种体系在催化反应特性方面的共同特征和区别,从而为开发高效、稳定和高选择性的新型催化剂体系奠定了理论基础。这篇综述将有助于进一步利用非贵金属催化剂来实现醇类的电催化氧化。
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Issue Information Front Cover: Carbon Neutralization, Volume 3, Issue 6, November 2024 Inside Back Cover Image: Carbon Neutralization, Volume 3, Issue 6, November 2024 Back Cover Image: Carbon Neutralization, Volume 3, Issue 6, November 2024 A chronicle of titanium niobium oxide materials for high-performance lithium-ion batteries: From laboratory to industry
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