Two‐Dimensional Metal–Organic Frameworks and Covalent–Organic Frameworks for Electrocatalysis: Distinct Merits by the Reduced Dimension

电催化剂 材料科学 金属有机骨架 共价键 灵活性(工程) 纳米技术 多孔性 大规模运输 催化作用 电化学 吸附 生化工程 电极 有机化学 物理化学 化学 复合材料 统计 数学 工程类
作者
Min Kyung Lee,Mohammadreza Shokouhimehr,Soo Young Kim,Ho Won Jang
出处
期刊:Advanced Energy Materials [Wiley]
卷期号:12 (4) 被引量:155
标识
DOI:10.1002/aenm.202003990
摘要

Abstract The demand to develop highly efficient electrocatalysts for renewable energy conversion has dramatically increased over the past few years. Metal–organic frameworks (MOFs) and covalent–organic frameworks (COFs) have emerged as promising materials to improve the catalytic efficiency of a variety of electrochemical energy conversion reactions. Compared to 3D bulk MOFs and COFs, which are commonly obtained by typical synthesis routes, 2D MOFs and COFs are achieved through innovative synthesis strategies, and exhibit further benefits in terms of chemical and structural properties. Specifically, the large porosity and ultrathin structure of the 2D materials contribute to exotic properties such as large surface area, mechanical flexibility, enhanced electrical conductivity, and rapid mass transport during reactions, which are highly applicable to electrocatalysis. In this review, the synthesis methods of 2D MOFs and COFs are first discussed. Then, the distinct advantages and recent advances in 2D materials for electrocatalytic reactions, including water splitting, O 2 reduction reaction, CO 2 reduction reaction, and N 2 reduction reaction, are introduced. Finally, based on existing challenges, crucial issues for the development of reliable 2D MOFs and COFs with enhanced catalytic performance are discussed.
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