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Electron redistribution of ruthenium-tungsten oxides Mott-Schottky heterojunction for enhanced hydrogen evolution

APPLIED CATALYSIS B-ENVIRONMENTAL [2022]
Lingxin Peng, Liang Su, Xu Yu, Rongyan Wang, Xiangzhi Cui, Han Tian, Shaowen Cao, Bao Yu Xia, Jianlin Shi
ABSTRACT

Developing efficient electrocatalysts is of significance for hydrogen production in acid electrolyte. In this work, we report a facile decoration of ruthenium species onto tungsten oxides to construct the Mott-Schottky heterojunction electrocatalyst for hydrogen evolution. The resultant Ru-WO 2.72 hybrid exhibits a superior Ru-based mass activity of 161.6 times higher than that of commercial Ru/C for hydrogen evolution, featuring a Tafel slope of 50 mV dec −1 and 40 mV overpotential at the current density of 10 mA cm −2 . The uniform distribution of Ru species triggers a strong electron transfer across the Ru-WO 2.72 Schottky barrier, resulting in a largely increased local electron density on the active Ru surface. Such electron enrichment induced by the Mott-Schottky effect at the metal-metal oxides interface is responsible for enhanced hydrogen production. This work demonstrates an effective strategy by Mott-Schottky effect to regulate electron distribution, which would evoke more inspiration in designing efficient electrocatalysis and beyond.

MATERIALS

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