posted on 2024-07-26, 14:45authored byChuangwei Liu, Qinye Li, Jie Zhang, Yonggang Jin, Douglas R. Macfarlane, Chenghua SunChenghua Sun
This work aims to explore inorganic boron as an electrochemical catalyst for nitrogen reduction reaction (NRR). The density functional theory approach has been employed to evaluate the free-energy profile for NRR on two stable boron monolayer types (α and β12). Our results revealed that the rate-determining step for nitrogen reduction to ammonia over two-dimensional boron structures is the first reduction step. Hexagonal triangular boron atoms in the α-sheet exhibit the best catalytic performance in all possible positions on the boron monolayer sheet surface, with a maximum energy input of 0.77 eV vs stand hydrogen electrode.
Funding
To identify and to understand highly reactive surfaces for solar hydrogen production