Boosting Hydrogen Evolution Reaction Activities of Three-Dimensional Flower-like Tungsten Carbonitride via Anion Regulation

Exploring high active, durable, and earth-abundant electrocatalysts for sustainable hydrogen production is a necessary prerequisite of the future hydrogen economy. Herein, anion regulation of a three-dimensional (3D) flower-like tungsten-based heterostructure supported on nickel foam is demonstrated...

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Published in:ACS sustainable chemistry & engineering 2020-09, Vol.8 (37), p.14109-14116
Main Authors: Fu, Hong Chuan, Zhang, Qing, Luo, Juan, Shen, Li, Chen, Xiao Hui, Wu, Li Li, Guo, Wan Hui, Yang, Yu Xian, Li, Nian Bing, Luo, Hong Qun
Format: Article
Language:English
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Summary:Exploring high active, durable, and earth-abundant electrocatalysts for sustainable hydrogen production is a necessary prerequisite of the future hydrogen economy. Herein, anion regulation of a three-dimensional (3D) flower-like tungsten-based heterostructure supported on nickel foam is demonstrated to play a crucial role in boosting the catalytic performance of hydrogen evolution reaction (HER). At high temperature (700 °C), the volatile CN x species decomposed from urea are captured by WO3 on the nickel foam, and then, the insufficient nitridation and carbonization occurred simultaneously, forming an N-doped W2C/WC heterostructure (N-W2C/WC-700). The resulting N-W2C/WC array exhibits a small overpotential of 63 mV at a current density of 10 mA cm–2 and a low Tafel slope of 73 mV dec–1 in alkaline media, accompanied by a negligible loss after 60 h. This work highlights a potentially facile solid-state synthesis strategy for controllable anion regulation and the rational design of the 3D self-supporting carbonitrides, which may provide a feasible interface engineering strategy for constructing other advanced energy materials.
ISSN:2168-0485
2168-0485
DOI:10.1021/acssuschemeng.0c04773