Modulating proton binding energy on the tungsten carbide nanowires surfaces for boosting hydrogen evolution in acid

Autor: Honghao Chu, Haibiao Chen, Wenju Ren, Zongwei Mei, Kuangda Xu, Shisheng Zheng, Qingshui Hong, Feng Pan, Tangyi Li
Rok vydání: 2021
Předmět:
Zdroj: Journal of Energy Chemistry. 62:610-616
ISSN: 2095-4956
DOI: 10.1016/j.jechem.2021.04.004
Popis: Tungsten carbides have attracted wide attentions as Pt substitute electrocatalysts for hydrogen evolution reaction (HER), due to their good stability in an acid environment and Pt-like behaviour in hydrolysis. However, quantum chemistry calculations predict that the strong tungsten-hydrogen bonding hinders hydrogen desorption and restricts the overall catalytic activity. Synergistic modulation of host and guest electronic interaction can change the local work function of a compound, and therefore, improve its electrocatalytic activity over either of the elements individually. Herein, we develop a creative and facile solid-state approach to synthesize self-supported carbon-encapsulated single-phase WC hybrid nanowires arrays (nanoarrays) as HER catalyst. The theoretical calculations reveal that carbon encapsulation modifies the Gibbs free energy of H* values for the WC adsorption sites, endowing a more favorable C@WC active site for HER. The experimental results exhibit that the hybrid WC nanoarrays possess remarkable Pt-like catalytic behavior, with superior activity and stability in an acidic media, which can be compared to the best non-noble metal catalysts reported to date for hydrogen evolution reaction. The present results and the facile synthesis method open up an exciting avenue for developing cost-effective catalysts with controllable morphology and functionality for scalable hydrogen generation and other carbide nanomaterials applicable to a range of electrocatalytic reactions.
Databáze: OpenAIRE