Organic carboxylate-based MOFs and derivatives for electrocatalytic water oxidation

As oxygen evolution reaction (OER) being a critical and bottleneck reaction in a wide range of energy applications, searching for highly-efficient OER electrocatalysts is of great significance. Among numerous candidates, metal-organic frameworks (MOFs) have demonstrated outstanding potential due to their exceptional structural advantages. This review summarizes a representative family of MOF materials, the carboxylate-based MOFs and derivatives as electrocatalysts for OER. With various carboxylate-metal coordinations, unique nanostructures can be constructed such as nanosheets, nanorods, polyhedrons, porous frameworks etc., making them suitable as pristine electrocatalysts or as precursors for carbon-composite catalysts. This review begins with a brief introduction on the structural advantages and synthetic approaches of carboxylate-based MOFs, followed by a discussion on recent advances of these materials in OER, where the effects of structural variation on the catalytic activity are emphasized. Furthermore, several types of the corresponding MOF derivatives are summarized. Finally, outlook on the development of carboxylate-based MOFs and derivatives for OER electrocatalysis is provided. (C) 2020 Elsevier B.V. All rights reserved.

Automated summary

Metal-organic frameworks (MOFs) show outstanding potential as highly-efficient electrocatalysts for oxygen evolution reaction (OER) due to their unique structural advantages, allowing for the construction of various nanostructures such as nanosheets, nanorods, polyhedrons, and porous frameworks.