Hydrogen evolution on different facets of δ_1- MoN and δ_3-MoN: Considering the adsorbed oxygen and hydroxyl by Surface Pourbaix diagrams

摘要

delta(1)-and delta(3)-MoN, the two most stable phases of molybdenum nitride, show a potential application in hydrogen evolution as their excellent corrosion resistance and high conductivity. However, we still lack the theoretical study about HER on their different surfaces. In order to simulate the realistic condition during heterogeneous catalysis, detailed atomic structure of each MoN surface (the *O and *OH) is determined by surface Pourbaix diagram. Further exploration of hydrogen evolution shows that the *O and *OH could change the catalytic site of one MoN surface, and weak the hydrogen adsorption ability. This is attributed to the downshift of Mo d-band center in top layer caused by the *O and *OH. And the hydrogen adsorption ability on catalytic sites of N and O atoms also follow the p-band center theory, respectively. It is interesting that several delta(1)-and delta(3)-MoN surfaces demonstrate comparable exchange current density, e.g., (101) and (001)N of delta(1)-MoN, and (110) of delta(3)-MoN with 1.76, 1.97 and 0.17 mA cm(-2), respectively. This work is expected to contribute to the theoretical understanding of HER on different delta(1)-and delta(3)-MoN surfaces, and provide guidance for corresponding experiments on them. (C) 2021 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.