Oxygen Vacancy‐Controlled CuOx/N,Se Co‐Doped Porous Carbon via Plasma‐Treatment for Enhanced Electro‐Reduction of Nitrate to Green Ammonia

Abstract

AbstractThe electrochemical nitrate reduction reaction (NO3RR) is of significance in regards of environmentally friendly issues and green ammonia production. However, relatively low performance with a competitive hydrogen evolution reaction (HER) is a challenge to overcome for the NO3RR. In this study, oxygen vacancy‐controlled copper oxide (CuOx) catalysts through a plasma treatment are successfully prepared and supported on high surface area porous carbon that are co‐doped with N, Se species for its enhanced electrochemical properties. The oxygen vacancy‐increased CuOx catalyst supported on the N,Se co‐doped porous carbon (CuOx‐H/NSePC) exhibited the highest NO3RR performance with faradaic efficiency (FE) of 87.2% and yield of 7.9 mg cm−2 h−1 for the ammonia production, representing significant enhancements of FE and ammonia yield as compared to the un‐doped or the oxygen vacancy‐decreased catalysts. This high performance should be attributed to a significant increase in the catalytic active sites with facilitated energetics from strategies of doping the catalytic materials and weakening the N─O bonding strength for the adsorption of NO3− ions on the modulated oxygen vacancies. This results show a promise that co‐doping of heteroatoms and regulating of oxygen vacancies can be key factors for performance enhancement, suggesting new guidelines for effective catalyst design of NO3RR.