Metal-organic gels and their derived materials for electrochemical applications

Metal-organic gels (MOGs) are an emerging class of materials and potential candidates for electrochemical applications because they have the advantages of large surface areas, designable and tailorable structures, active metal sites, and mild synthetic conditions. In addition to pristine MOGs, MOGs have been converted into derivatives such as porous carbons and nanostructured metal oxides. The utilization of MOGs, MOG derivatives, and MOG nanocomposites with graphene, conductive polymers, and others has been studied in various electrochemical applications and there is a need for an exhaustive review that covers all the genres of metal-organic gels for electrochemical applications. This review focuses on electrochemical studies of MOGs in energy conversion and storage techniques. The latest progress in MOG materials for electricity/ion conductors (electrolytes), energy storage, and conversion (electrocatalysis, supercapacitors, and batteries) is summarized, and future developments in this rapidly advancing field are presented.

Automated summary

Metal-organic gels (MOGs) are a promising class of materials for electrochemical applications due to their large surface areas, customizable structures, active metal sites, and mild synthesis conditions. This review focuses on the electrochemical studies of MOGs in energy conversion and storage techniques. The latest progress in MOG materials for electricity/ion conductors, energy storage, and conversion is summarized, and future developments in this field are presented.