Advances in anode catalysts of methanol-assisted water-splitting reactions for hydrogen generation

Methanol-assisted water-splitting reaction for green hydrogen generation is more competitive to the traditional water electrolysis driven by sustainable energies due to the largely reduced energy costs. Increasing attention currently is directed to the highly efficient methanol electrooxidation catalysts that determine the catalysis efficiency, and some advanced catalysts have been developed. Given the significant advances, this review proposed a summary of the recent progress in catalysts for methanol-assisted water electrolysis. The mechanism of methanol-assisted water-splitting reaction classified by noble and non-noble metals was first presented by taking into account their distinct redox reactions. Then, the research progress of these catalysts for methanol-assisted water-splitting reactions is summarized and discussed, and the challenges and problems associated with catalyst design and optimization as well as their practical application were finally commented on. This review would be a valuable reference for catalyst development and mechanism understanding in methanol-assisted watersplitting reactions for hydrogen generation.

Automated summary

This review provides a summary of recent advances in catalysts for methanol-assisted water electrolysis. The mechanism of methanol-assisted water-splitting reaction classified by noble and non-noble metals is presented, and the research progress of these catalysts is summarized and discussed. Challenges and problems associated with catalyst design and optimization as well as their practical application are also commented on.