1. MO2C/C Nanocomposites Prepared by a Solid-Flame Combustion Synthesis Process for the Hydrogen Evolution Reaction.
- Author
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Jeong, Kyoung-Jin, Lee, Yohan, Nersisyan, Hayk, Jeong, Junmo, Choo, Dong Kyun, Suh, Hoyoung, and Lee, Jong Hyeon
- Abstract
In this study, we present two distinct solid-flame combustion synthesis (SF-CS) methods for the fabrication of two-dimensional (2D) nanosheets of carbon and nanocrystals of molybdenum carbide (Mo
2 C). To synthesize 2D carbon nanosheets, poly-(vinyl chloride) polymer powder is combusted in conjunction with magnesium (Mg). In contrast, Mo2 C is generated through the combustion–reduction of MoO3 using an excess of Mg. It is observed that the crystallization of Mo2 C within liquid Mg yields well-defined nanocrystals with {101} facets. Combining these nanocrystals with 2D carbon nanosheets results in hydrogen evolution reaction (HER) catalysts with a significantly improved performance. A comprehensive comprehension of the underlying mechanisms responsible for the heightened HER performance is elucidated, particularly with regard to the synergistic effects arising from the combination of Mo2 C and graphene-like 2D carbon nanosheets. Furthermore, a density functional theory (DFT) analysis of Mo2 C/interface energies indicates that the presence of a few layers of graphene on the Mo2 C facet surface can enhance the catalytic properties. This is attributed to the fact that carbon layers do not form bonds with hydrogen atoms, which gradually reduces the adsorption energies of hydrogen and facilitates the formation of H2 molecules. [ABSTRACT FROM AUTHOR]- Published
- 2023
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