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JOURNAL ARTICLE

Mo‐Doped Sulfur‐Vacancy‐Rich V1.11S2 Nanosheets for Efficient Hydrogen Evolution

Qiuyue ChenXuguang AnXiaoqiang WuJing ZhangWeitang YaoChenghua SunQingyuan WangQingquan Kong

Year: 2022 Journal:   ChemistrySelect Vol: 7 (23)   Publisher: Wiley
DOI: 10.1002/slct.202201266
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Abstract

Abstract High‐performance low‐cost hydrogen evolution electrocatalysts are urgently demanded for hydrogen production by water splitting. Herein, we report that an efficient defect engineering strategy, NaBH 4 treatment, was employed to promote the HER activity of pre‐synthesized Mo‐doped V 1.11 S 2 nanosheets. The abundant sulfur vacancies enable Mo‐doped V 1.11 S 2 petaloid nanosheets with a low overpotential of 160 mV and a small Tafel slope of 46.2 mV dec −1 at 10 mA cm −2 to drive the HER, as well as excellent long‐term stability in 0.5 mol L −1 H 2 SO 4 . The outstanding electrocatalytic performance can be attributed to the large electrochemical surface area and low charge transfer resistance.

Keywords:
Overpotential Tafel equation Vacancy defect Doping Hydrogen production Sulfur Water splitting Materials science Electrochemistry Hydrogen Chemical engineering Nanotechnology Optoelectronics Chemistry Catalysis Electrode Crystallography Physical chemistry Metallurgy Engineering

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Citation History

Topics

Electrocatalysts for Energy Conversion
Physical Sciences →  Energy →  Renewable Energy, Sustainability and the Environment
Advanced battery technologies research
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Advanced Photocatalysis Techniques
Physical Sciences →  Energy →  Renewable Energy, Sustainability and the Environment

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