Multi-metal porous crystalline materials for electrocatalysis applications

Abstract

Multi-metal porous crystalline materials (MPCM), integrating the functions of both multi-metal centres and porous crystalline materials (e.g., metal-organic frameworks (MOFs) and covalent organic frameworks (COFs)), are an extended class of porous materials that have attracted much attention for a broad range of applications. Owing to the advantages of these materials, they generally display high porosity, multi-metal active sites, well-tuned functions, and pre-designable structures, etc., serving as desired platforms for the study of structure-property relationships. In view of the clean and sustainable target, a series of MPCM have been explored as electrocatalysts for electrocatalytic reactions like hydrogen evolution reaction, oxygen evolution reaction and electrocatalytic CO₂ reduction reaction. Concerning the progress achieved for MPCM in electrocatalytic field during past years, this review will provide a brief introduction on the recent breakthrough of MPCM based electrocatalysts including their synthesis methods, structure design, component/morphology tuning, electrocatalytic property and structure-property relationship, etc. Besides, it will also conclude the current challenges and present perspectives for the MPCM based electrocatalysts, which might promote the development of porous crystalline materials in electrocatalysis and hope to provide new insights for scientists in related fields.