Exploration of the electrochemical mechanism of ultrasmall multiple phases molybdenum carbides nanocrystals for hydrogen evolution reaction

Abstract

Sustainable and affordable hydrogen production through splitting of water, an essential step towards renewable and clean energy storage, calls for efficient non-precious-metal catalysts to make the process economically viable. Ultrasmall multiple phases molybdenum carbides nanocrystals (2.5 nm for MoC and 5.0 nm for Mo₂C) on graphene support were synthesized by a simple in situ method. Both molybdenum carbides on graphene hybrid materials, the MoC-G and Mo₂C-G, show extraordinary high activity for hydrogen evolution reaction (HER) in acid media. The reaction kinetics of the MoC-G and Mo₂C-G were revealed. The X-ray photoelectron spectroscopy (XPS) and X-ray absorption fine structure (XAFS) were conducted to study the electronic nature of MoC-G and Mo₂C-G electrocatalysts to explore the electrochemical mechanism of ultrasmall multiple phases molybdenum carbides nanocrystals on graphene for hydrogen evolution reaction.