Molecules (May 2024)

Insights into the Origin of Activity Enhancement via Tuning Electronic Structure of Cu<sub>2</sub>O towards Electrocatalytic Ammonia Synthesis

  • Meimei Kou,
  • Ying Yuan,
  • Ruili Zhao,
  • Youkui Wang,
  • Jiamin Zhao,
  • Qing Yuan,
  • Jinsheng Zhao

DOI
https://doi.org/10.3390/molecules29102261
Journal volume & issue
Vol. 29, no. 10
p. 2261

Abstract

Read online

The insight of the activity phase and reaction mechanism is vital for developing high-performance ammonia synthesis electrocatalysts. In this study, the origin of the electronic-dependent activity for the model Cu2O catalyst toward ammonia electrosynthesis with nitrate was probed. The modulation of the electronic state and oxygen vacancy content of Cu2O was realized by doping with halogen elements (Cl, Br, I). The electrocatalytic experiments showed that the activity of the ammonia production depends strongly on the electronic states in Cu2O. With increased electronic state defects in Cu2O, the ammonia synthesis performance increased first and then decreased. The Cu2O/Br with electronic defects in the middle showed the highest ammonia yield of 11.4 g h−1 g−1 at −1.0 V (vs. RHE), indicating that the pattern of change in optimal ammonia activity is consistent with the phenomenon of volcano curves in reaction chemistry. This work highlights a promising route for designing NO3−RR to NH3 catalysts.

Keywords