Conductive MOFs for electrocatalysis and electrochemical sensor

IF 42.9 Q1 ELECTROCHEMISTRY eScience Pub Date : 2023-04-11 DOI:10.1016/j.esci.2023.100133

Kang-Kai Liu , Zheng Meng , Yu Fang , Hai-Long Jiang

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引用次数: 5

Abstract

Two-dimensional conductive metal–organic frameworks (2D-cMOFs) are a class of 2D layered MOFs with excellent electrical conductivity and other electronic properties. In recent years, their porous structure and dense active sites have been widely used in electrocatalysis and electrochemical sensing. The large electron delocalization domains generated by an extended π-conjugated framework through the covalent bonding between metal and organic ligand endow them with unique high conductivity. Yet despite a few promising applications, current research rarely addresses their “structure–property relationship.” This review discusses the rational design of 2D-cMOFs with extraordinary electrochemical performance. We introduce several representative 2D-cMOFs and describe their applications, focusing on electrochemical catalysis and small molecule detection. By correlating the performance of the current materials in these applications and the corresponding mechanisms, we aim to uncover the key structural features that lead to their engineered properties and functions.

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电催化和电化学传感器用导电MOFs

二维导电金属有机骨架(2D- cmofs)是一类具有优异导电性和其他电子性能的二维层状金属有机骨架。近年来，它们多孔的结构和密集的活性位点在电催化和电化学传感中得到了广泛的应用。扩展π共轭框架通过金属与有机配体之间的共价键形成大的电子离域，使其具有独特的高导电性。然而，尽管有一些有前途的应用，目前的研究很少涉及它们的“结构-性质关系”。本文讨论了具有优异电化学性能的二维cmos材料的合理设计。介绍了几种具有代表性的2D-cMOFs，并介绍了它们在电化学催化和小分子检测方面的应用。通过将当前材料在这些应用中的性能和相应的机制相关联，我们的目标是揭示导致其工程性能和功能的关键结构特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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eScience

CiteScore

33.70

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0.00%

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