Research advances and mechanisms of rare earth-based electrocatalysts for water electrolysis

析氧 稀土 催化作用 电催化剂 分解水 背景(考古学) 电解水 纳米技术 材料科学 电解 制氢 镧系元素 电解质 化学 空位缺陷 化学工程 环境科学 氧气
作者
Chenyu Shi,Junjun Zhang,Weiwei Bao,Hui‐Long Wei,Pengfei Zhang,Zheng-Hong Luo
出处
期刊:Chemical Communications [Royal Society of Chemistry]
卷期号:62 (7): 2110-2132 被引量:7
标识
DOI:10.1039/d5cc05766c
摘要

In the context of "dual carbon" goals, the continuous increase in the proportion of green hydrogen is of great significance for the sustainable development of both the environment and the economy. The efficiency of electrocatalysis is contingent on the utilization of high-performance catalysts. In recent years, rare earth elements have demonstrated high application potential in the electrolytic water hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). In light of the rapid advancements being made in this research domain, the present review offers a comprehensive overview of the current state of the art concerning the utilization of rare earth element-doped and rare earth element-compound composite catalysts in the context of water electrolysis. Rare earth elements have been shown to enhance the activity and stability of catalysts in the HER and the OER. This enhancement is primarily due to alterations to the electronic structure of the catalysts, the creation of lattice defects (which increases the oxygen vacancy concentration), the modulation of catalyst surface properties, and the regulation of charge transfer rates. Despite the evident potential of rare earth elements in enhancing catalyst performance, the current research is constrained by limitations, particularly in relation to in-depth studies on their application potential under varying pH conditions, long-term stability, cost-effectiveness, and environmental impact. Future research endeavors must delve deeper into the mechanism of rare earth elements in HER and OER catalysts. Furthermore, there is a need to refine the preparation processes to bridge the commercial application gap between them and noble metal catalytic materials. Additionally, there is an opportunity to expand the application scope of electrocatalytic materials. It is anticipated that this review will have a substantial impact on the advancement of rare earth-based electrocatalytic processes.
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