Strategies for the preparation of MOFs-based composites and their research progress in electrocatalysis

This review systematically explores the application and research progress of metal-organic frameworks (MOFs) based composites in electrocatalysis. Firstly, we introduce a variety of preparation methods for MOFs-based composites, including in situ doping/substitution, hydrothermal/solvent-thermal methods, solution impregnation, dual-solvent impregnation, and sandwich assembly, with a focus on analyzing the effects of different methods on the structure and properties of the materials. Secondly, the practical applications of MOFs-based composites in electrocatalytic reactions, including hydrogen evolution reaction, oxygen evolution reaction, oxygen reduction reaction, nitrogen reduction reaction, and carbon dioxide reduction, are elaborated in detail, with emphasis on their excellent properties and catalytic mechanisms. Finally, we look forward to the future development trend of MOFs-based composites, and believe that with the emergence of novel synthesis technologies and idealized design methods, MOFs-based composites will show greater potential for applications in areas such as renewable energy conversion and environmental governance. In summary, this review provides a comprehensive perspective and in-depth analysis of the electrocatalytic studies of MOFs-based composites.