Amorphous RuS₂ electrocatalyst with optimized active sites for hydrogen evolution
Transition metal chalcogenides have attracted much attention as high-performance electrocatalysts for hydrogen evolution reaction (HER). Here, we synthesized an efficient HER electrocatalyst of amorphous ruthenium sulfide (A-RuS2), exhibiting an overpotential of 141 mV at the current density of 10 m...
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sg-ntu-dr.10356-1617122022-09-16T03:53:06Z Amorphous RuS₂ electrocatalyst with optimized active sites for hydrogen evolution Xia, Yongji Wu, Wenqi Wang, Hao Rao, Senlin Zhang, Fayun Zou, Guifu School of Chemical and Biomedical Engineering Engineering::Materials Electrocatalysis Hydrogen Evolution Reaction Transition metal chalcogenides have attracted much attention as high-performance electrocatalysts for hydrogen evolution reaction (HER). Here, we synthesized an efficient HER electrocatalyst of amorphous ruthenium sulfide (A-RuS2), exhibiting an overpotential of 141 mV at the current density of 10 mA cm-2 and a Tafel slope of 65.6 mV dec-1. Experiments demonstrate amorphous RuS2 has much better catalytic activity than that of its crystalline counterparts. Our study shows that amorphous RuS2 has increased intrinsic activity and active sites. This work provides a feasible strategy for the development of HER electrocatalysts in amorphous state. We gratefully acknowledge the support from the National Natural Science Foundation of China (Grant Nos. 21971172, 21671141), `973 Program-The National Basic Research Program of China' Special Funds for the Chief Young Scientist (Grant No. 2015CB358600), the Priority Academic Program Development (PAPD) of Jiangsu Higher Education Institutions for Optical Engineering, and the Jiangsu Collaborative Innovation Center of Photovoltaic Science and Engineering. 2022-09-16T03:53:05Z 2022-09-16T03:53:05Z 2020 Journal Article Xia, Y., Wu, W., Wang, H., Rao, S., Zhang, F. & Zou, G. (2020). Amorphous RuS₂ electrocatalyst with optimized active sites for hydrogen evolution. Nanotechnology, 31(14), 145401-. https://dx.doi.org/10.1088/1361-6528/ab62d3 0957-4484 https://hdl.handle.net/10356/161712 10.1088/1361-6528/ab62d3 31846946 2-s2.0-85078555202 14 31 145401 en Nanotechnology © 2020 IOP Publishing Ltd. All rights reserved. |
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Engineering::Materials Electrocatalysis Hydrogen Evolution Reaction Xia, Yongji Wu, Wenqi Wang, Hao Rao, Senlin Zhang, Fayun Zou, Guifu Amorphous RuS₂ electrocatalyst with optimized active sites for hydrogen evolution |
| description |
Transition metal chalcogenides have attracted much attention as high-performance electrocatalysts for hydrogen evolution reaction (HER). Here, we synthesized an efficient HER electrocatalyst of amorphous ruthenium sulfide (A-RuS2), exhibiting an overpotential of 141 mV at the current density of 10 mA cm-2 and a Tafel slope of 65.6 mV dec-1. Experiments demonstrate amorphous RuS2 has much better catalytic activity than that of its crystalline counterparts. Our study shows that amorphous RuS2 has increased intrinsic activity and active sites. This work provides a feasible strategy for the development of HER electrocatalysts in amorphous state. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Xia, Yongji Wu, Wenqi Wang, Hao Rao, Senlin Zhang, Fayun Zou, Guifu |
| format |
Article |
| author |
Xia, Yongji Wu, Wenqi Wang, Hao Rao, Senlin Zhang, Fayun Zou, Guifu |
| author_sort |
Xia, Yongji |
| title |
Amorphous RuS₂ electrocatalyst with optimized active sites for hydrogen evolution |
| title_short |
Amorphous RuS₂ electrocatalyst with optimized active sites for hydrogen evolution |
| title_full |
Amorphous RuS₂ electrocatalyst with optimized active sites for hydrogen evolution |
| title_fullStr |
Amorphous RuS₂ electrocatalyst with optimized active sites for hydrogen evolution |
| title_full_unstemmed |
Amorphous RuS₂ electrocatalyst with optimized active sites for hydrogen evolution |
| title_sort |
amorphous rus₂ electrocatalyst with optimized active sites for hydrogen evolution |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161712 |
| _version_ |
1744365397523562496 |