The future of organic electrochemistry current transfer

The electrostatic attraction between electrons and nuclei is a fundamental force in electrochemistry. This force drives the interaction between electrons and nuclei, providing the potential for redox reactions. As a result, it is the basis of redox chemistry. In recent years, organic electrochemistry has made significant progress in oxidative hydrogen evolution coupling and sacrificial anode electroreduction, thanks to its efficient and environmentally friendly capacity to create reactive intermediates. This paper focuses on several areas in the field of electrochemistry, including optimizing electrode materials, developing new electrolytic catalysts, paired electrolysis, photoelectrocatalysis, bioelectrosynthesis, and artificial intelligence-assisted electrosynthesis. The aim is to optimize reaction mechanisms and explore interdisciplinary combinations.