Stereodefined codoping of sp-N and S atoms in few-layer graphdiyne for oxygen evolution reaction
Developing metal-free catalysts with high catalytic activity for oxygen evolution reaction (OER) is essentially important for energy and environment-related techniques. Compared with individual element doping, doping carbon materials with multiple heteroelements has more advantages for enhancing the...
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sg-ntu-dr.10356-1444762020-11-06T05:43:11Z Stereodefined codoping of sp-N and S atoms in few-layer graphdiyne for oxygen evolution reaction Zhao, Yasong Yang, Nailiang Yao, Huiying Liu, Daobin Song, Li Zhu, Jia Li, Shuzhou Gu, Lin Lin, Kaifeng Wang, Dan School of Materials Science and Engineering Engineering::Materials Catalyst Activity Atoms Developing metal-free catalysts with high catalytic activity for oxygen evolution reaction (OER) is essentially important for energy and environment-related techniques. Compared with individual element doping, doping carbon materials with multiple heteroelements has more advantages for enhancing the OER performance. However, doped sites for the different atoms are highly uncontrollable under the reported methods, which hinder the deeper understanding on the relationship between structure and property, and also limit the enhancement of catalytic activity. Our latest research has reported a method to site-controlled introducing a new form of nitrogen atoms, i.e. sp-hybridized nitrogen (sp-N), into graphdiyne, showing its potential advantages in OER catalysis. Since the sites of sp-N atoms are defined in graphdiyne, and the doping sites for S atoms are well understood, the relative position between N and S can be further defined. It gives us a chance to understand deeply the mechanism in the N, S heteroelements doped metal-free catalyst. Experimental results present that the codoping of sp-N and S atoms brought an excellent OER performance with low overpotential and high current density owning to the effectively synergistic effect of the stereodefined heteroatoms. This work was supported by the National Key Research and Development Program of China (2016YFB0600903) and the National Natural Science Foundation of China (21590795, 21820102002), the Scientific Instrument Developing Project of the Chinese Academy of Sciences (Grant No. YZ201623), Queensland-Chinese Academy of Sciences Collaborative Science Fund (122111KYSB20170001), and Chinese Academy of Sciences (CAS) Interdisciplinary Innovation Team. 2020-11-06T05:43:11Z 2020-11-06T05:43:11Z 2019 Journal Article Zhao, Y., Yang, N., Yao, H., Liu, D., Song, L., Zhu, J., . . . Wang, D. (2019). Stereodefined codoping of sp-N and S atoms in few-layer graphdiyne for oxygen evolution reaction. Journal of the American Chemical Society, 141(18), 7240-7244. doi:10.1021/jacs.8b13695 0002-7863 https://hdl.handle.net/10356/144476 10.1021/jacs.8b13695 31002756 18 141 7240 7244 en Journal of the American Chemical Society © 2019 American Chemical Society. All rights reserved. |
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Engineering::Materials Catalyst Activity Atoms Zhao, Yasong Yang, Nailiang Yao, Huiying Liu, Daobin Song, Li Zhu, Jia Li, Shuzhou Gu, Lin Lin, Kaifeng Wang, Dan Stereodefined codoping of sp-N and S atoms in few-layer graphdiyne for oxygen evolution reaction |
| description |
Developing metal-free catalysts with high catalytic activity for oxygen evolution reaction (OER) is essentially important for energy and environment-related techniques. Compared with individual element doping, doping carbon materials with multiple heteroelements has more advantages for enhancing the OER performance. However, doped sites for the different atoms are highly uncontrollable under the reported methods, which hinder the deeper understanding on the relationship between structure and property, and also limit the enhancement of catalytic activity. Our latest research has reported a method to site-controlled introducing a new form of nitrogen atoms, i.e. sp-hybridized nitrogen (sp-N), into graphdiyne, showing its potential advantages in OER catalysis. Since the sites of sp-N atoms are defined in graphdiyne, and the doping sites for S atoms are well understood, the relative position between N and S can be further defined. It gives us a chance to understand deeply the mechanism in the N, S heteroelements doped metal-free catalyst. Experimental results present that the codoping of sp-N and S atoms brought an excellent OER performance with low overpotential and high current density owning to the effectively synergistic effect of the stereodefined heteroatoms. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Zhao, Yasong Yang, Nailiang Yao, Huiying Liu, Daobin Song, Li Zhu, Jia Li, Shuzhou Gu, Lin Lin, Kaifeng Wang, Dan |
| format |
Article |
| author |
Zhao, Yasong Yang, Nailiang Yao, Huiying Liu, Daobin Song, Li Zhu, Jia Li, Shuzhou Gu, Lin Lin, Kaifeng Wang, Dan |
| author_sort |
Zhao, Yasong |
| title |
Stereodefined codoping of sp-N and S atoms in few-layer graphdiyne for oxygen evolution reaction |
| title_short |
Stereodefined codoping of sp-N and S atoms in few-layer graphdiyne for oxygen evolution reaction |
| title_full |
Stereodefined codoping of sp-N and S atoms in few-layer graphdiyne for oxygen evolution reaction |
| title_fullStr |
Stereodefined codoping of sp-N and S atoms in few-layer graphdiyne for oxygen evolution reaction |
| title_full_unstemmed |
Stereodefined codoping of sp-N and S atoms in few-layer graphdiyne for oxygen evolution reaction |
| title_sort |
stereodefined codoping of sp-n and s atoms in few-layer graphdiyne for oxygen evolution reaction |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144476 |
| _version_ |
1683493304933548032 |