In situ electrochemical spectroscopy for boron-doped diamond electrode reactions: recent progress and perspectives

Over the past years, great attention has been given to the developments of boron-doped diamond (BDD) materials in various fields because of the advantages of electrochemical features, such as large potential range and low background current. This minireview aims to present the recent progress of in situ electrochemical spectroscopy for BDD electrode reactions. After a concise state of the widely used in situ electrochemical spectroscopy techniques, including in situ electrochemical Raman, infrared, and electron paramagnetic resonance spectroscopy, the current progress of BDD electrode reactions using in situ electrochemical spectroscopy has been summarized. Finally, challenges and perspectives for the tendency of the BDD study via in situ electrochemistry are provided, of which several potential electrochemical combined technologies relating to the mechanism exploration of BDD are proposed.

Automated summary

This mini-review presents the recent progress in situ electrochemical spectroscopy for boron-doped diamond (BDD) electrode reactions. It provides a concise overview of widely used in situ electrochemical spectroscopy techniques and summarizes the current progress of BDD electrode reactions using in situ electrochemical spectroscopy. It also discusses the challenges and perspectives for the future of BDD study via in situ electrochemistry, proposing several potential electrochemical combined technologies for mechanism exploration of BDD.