期刊
JOURNAL OF ENERGY CHEMISTRY
卷 85, 期 -, 页码 11-18出版社
ELSEVIER
DOI: 10.1016/j.jechem.2023.05.0302095-4956
关键词
Interfacial engineering; Catalytic kinetics; Water splitting
A stable and efficient CoS2-ReS2 electrocatalyst is successfully constructed by using different molar ratios of CoS2 on ReS2, which significantly changes the size and morphology of the catalysts and regulates the catalytic activity of ReS2. The optimized CoS2-ReS2 exhibits superior electrocatalytic properties for water splitting, with a low voltage of 1.48 V at 20 mA cm-2 in 1.0 M KOH, outperforming noble metal-based catalysts (1.77 V at 20 mA cm-2). The interfacial regulation of ReS2 by CoS2 provides rich edge catalytic sites, optimizing the catalytic kinetics and reducing the energy barrier for oxygen/hydrogen evolution reactions. Interfacial engineering is an efficient route for fabricating high-performance water splitting electrocatalysts.
Herein, a stable and efficient CoS2-ReS2 electrocatalyst is successfully constructed by using the different molar ratios of CoS2 on ReS2. The size and morphology of the catalysts are significantly changed after the CoS2 is grown on ReS2, providing regulation of the catalytic activity of ReS2. Particularly, the optimized CoS2-ReS2 shows superior electrocatalytic properties with a low voltage of 1.48 V at 20 mA cm-2 for over-all water splitting in 1.0 M KOH, which is smaller than the noble metal-based catalysts (1.77 V at 20 mA cm-2). The XPS, XAS, and theoretical data confirm that the interfacial regulation of ReS2 by CoS2 can provide rich edge catalytic sites, which greatly optimizes the catalytic kinetics and drop the energy barrier for oxygen/hydrogen evolution reactions. Our results demonstrated that interfacial engi-neering is an efficient route for fabricating high-performance water splitting electrocatalysts.& COPY; 2023 Science Press and Dalian Institute of Chemical Physics, Chinese Academy of Sciences. Published by ELSEVIER B.V. and Science Press. All rights reserved.
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