Wenjin Yuan scite author profile

Developing high surface area Mo2C with certain crystal plane exposed is an efficient strategy but is an urgent challenge to optimize the hydrogen evolution reaction (HER) catalytic performances. In addition, the effects of certain crystal faces on catalytic performance have been limitedly understood. Toward this end, the (1 0 0) plane oriented two-dimensional lamellar Mo2C transformed from carbon fibers is synthesized successfully in a molten salt system. Subsequently, the electrocatalytic properties toward HER show that (1 0 0) plane oriented Mo2C functions well in both acidic and basic media. The density functional theory calculations show that the most stable Mo/C termination of the (1 0 0) plane contains multiple catalytically active centers. These close-to-zero ΔG H* values verify its better HER performance. Besides, the correlation between hydrogen adsorption behavior and the water dissociation process as well as their corresponding roles in the overall acid and alkaline HER rates have been discussed in depth. A simple mechanistic analysis is put forward to explain the favorable HER performance of the lamellar structure β-Mo2C in alkaline other than acid electrolytes. The molten salt method may provide a new way for developing electrocatalysts with oriented crystal faces.

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Structure engineering of electrodeposited NiMo films for highly efficient and durable seawater splitting

Yuan

Cui

Zhu

et al. 2021

Electrochimica Acta

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Tuning cobalt eg occupation of Co-NCNT by manipulation of crystallinity facilitates more efficient oxygen evolution and reduction

Yuan

Chernev

Klingan

et al. 2020

Journal of Catalysis

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Modification of graphene aerogel with titania nanotubes for efficient methylene blue adsorption kinetics

Liu

Gao

Yuan

et al. 2021

J Sol-Gel Sci Technol

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Wenjin Yuan

Two-Dimensional Lamellar Mo₂C for Electrochemical Hydrogen Production: Insights into the Origin of Hydrogen Evolution Reaction Activity in Acidic and Alkaline Electrolytes

Structure engineering of electrodeposited NiMo films for highly efficient and durable seawater splitting

Tuning cobalt eg occupation of Co-NCNT by manipulation of crystallinity facilitates more efficient oxygen evolution and reduction

Modification of graphene aerogel with titania nanotubes for efficient methylene blue adsorption kinetics

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Wenjin Yuan

Two-Dimensional Lamellar Mo2C for Electrochemical Hydrogen Production: Insights into the Origin of Hydrogen Evolution Reaction Activity in Acidic and Alkaline Electrolytes

Structure engineering of electrodeposited NiMo films for highly efficient and durable seawater splitting

Tuning cobalt eg occupation of Co-NCNT by manipulation of crystallinity facilitates more efficient oxygen evolution and reduction

Modification of graphene aerogel with titania nanotubes for efficient methylene blue adsorption kinetics

Contact Info

Product

Resources

About

Two-Dimensional Lamellar Mo₂C for Electrochemical Hydrogen Production: Insights into the Origin of Hydrogen Evolution Reaction Activity in Acidic and Alkaline Electrolytes