Post cobalt doping and defect engineering of NbSSe for efficient hydrogen evolution reaction
Group VB transition metal dichalcogenides (TMDs) show a metallic nature and are potential catalysts applied in the hydrogen evolution reaction (HER). Ternary structures and element doping are the dominant methods to improve HER performance. Herein, chemical vapor transport (CVT)-grown NbSSe was post...
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sg-ntu-dr.10356-1702662023-09-05T06:01:24Z Post cobalt doping and defect engineering of NbSSe for efficient hydrogen evolution reaction Ren, Yuxin Miao, Xiaoyan Zhang, Jiaxiang Lu, Qidong Chen, Yi Fan, Haibo Teng, Feng Zhai, Huifei He, Xuexia Long, Yi Zhang, Chunmei Hu, Peng School of Materials Science and Engineering Engineering::Materials Cobalt Doping Dichalcogenides Group VB transition metal dichalcogenides (TMDs) show a metallic nature and are potential catalysts applied in the hydrogen evolution reaction (HER). Ternary structures and element doping are the dominant methods to improve HER performance. Herein, chemical vapor transport (CVT)-grown NbSSe was post-doped with cobalt atoms by the hydrothermal method for the first time to produce metallic 2D electrocatalysts used for the HER. The post-doped cobalt in NbSSe not only enhanced the HER performance, but also improved the hydrogen evolution stability. Due to the conductive phase of NbSSe and abundant active sites created by ternary structures and Co-doping, the 10% Co-doped NbSSe exhibits a low overpotential of 173 mV at a current density of 10 mA cm−2, a Tafel slope of 64 mV dec−1, and good durability, which are comparable to or better than those of most previously reported ternary TMD systems. Compared with pristine NbSSe, the Co-doped NbSSe shows a 220 mV decrease in overpotential at 10 mA cm−2. Both theoretical calculations and experimental data indicate that more defects created by the Co-doping and ternary structure resulted in a lower H* adsorption energy, giving a better HER performance. This work presents a new, efficient catalyst for the HER and the cation post doping could be extended to other ternary TMD electrocatalysts to improve the catalytic performance. P. H. acknowledges the financial support from the National Natural Science Foundation of China (No. 51803168), Key Research and Development Program of Shaanxi Province (2022GY-356) and the Youth Innovation Team of Shaanxi Universities. X. H. acknowledges the financial support from the Shaanxi Sanqin Scholars Innovation Team. 2023-09-05T06:00:24Z 2023-09-05T06:00:24Z 2023 Journal Article Ren, Y., Miao, X., Zhang, J., Lu, Q., Chen, Y., Fan, H., Teng, F., Zhai, H., He, X., Long, Y., Zhang, C. & Hu, P. (2023). Post cobalt doping and defect engineering of NbSSe for efficient hydrogen evolution reaction. Journal of Materials Chemistry A, 11(6), 2690-2697. https://dx.doi.org/10.1039/D2TA06913J 2050-7488 https://hdl.handle.net/10356/170266 10.1039/D2TA06913J 6 11 2690 2697 en Journal of Materials Chemistry A © 2023 The Royal Society of Chemistry. All rights reserved. |
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Engineering::Materials Cobalt Doping Dichalcogenides Ren, Yuxin Miao, Xiaoyan Zhang, Jiaxiang Lu, Qidong Chen, Yi Fan, Haibo Teng, Feng Zhai, Huifei He, Xuexia Long, Yi Zhang, Chunmei Hu, Peng Post cobalt doping and defect engineering of NbSSe for efficient hydrogen evolution reaction |
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Group VB transition metal dichalcogenides (TMDs) show a metallic nature and are potential catalysts applied in the hydrogen evolution reaction (HER). Ternary structures and element doping are the dominant methods to improve HER performance. Herein, chemical vapor transport (CVT)-grown NbSSe was post-doped with cobalt atoms by the hydrothermal method for the first time to produce metallic 2D electrocatalysts used for the HER. The post-doped cobalt in NbSSe not only enhanced the HER performance, but also improved the hydrogen evolution stability. Due to the conductive phase of NbSSe and abundant active sites created by ternary structures and Co-doping, the 10% Co-doped NbSSe exhibits a low overpotential of 173 mV at a current density of 10 mA cm−2, a Tafel slope of 64 mV dec−1, and good durability, which are comparable to or better than those of most previously reported ternary TMD systems. Compared with pristine NbSSe, the Co-doped NbSSe shows a 220 mV decrease in overpotential at 10 mA cm−2. Both theoretical calculations and experimental data indicate that more defects created by the Co-doping and ternary structure resulted in a lower H* adsorption energy, giving a better HER performance. This work presents a new, efficient catalyst for the HER and the cation post doping could be extended to other ternary TMD electrocatalysts to improve the catalytic performance. |
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School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Ren, Yuxin Miao, Xiaoyan Zhang, Jiaxiang Lu, Qidong Chen, Yi Fan, Haibo Teng, Feng Zhai, Huifei He, Xuexia Long, Yi Zhang, Chunmei Hu, Peng |
| format |
Article |
| author |
Ren, Yuxin Miao, Xiaoyan Zhang, Jiaxiang Lu, Qidong Chen, Yi Fan, Haibo Teng, Feng Zhai, Huifei He, Xuexia Long, Yi Zhang, Chunmei Hu, Peng |
| author_sort |
Ren, Yuxin |
| title |
Post cobalt doping and defect engineering of NbSSe for efficient hydrogen evolution reaction |
| title_short |
Post cobalt doping and defect engineering of NbSSe for efficient hydrogen evolution reaction |
| title_full |
Post cobalt doping and defect engineering of NbSSe for efficient hydrogen evolution reaction |
| title_fullStr |
Post cobalt doping and defect engineering of NbSSe for efficient hydrogen evolution reaction |
| title_full_unstemmed |
Post cobalt doping and defect engineering of NbSSe for efficient hydrogen evolution reaction |
| title_sort |
post cobalt doping and defect engineering of nbsse for efficient hydrogen evolution reaction |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170266 |
| _version_ |
1779156722556862464 |