Bismuth vacancy mediated single unit cell Bi2WO6 nanosheets for boosting photocatalytic oxygen evolution
Surface defects are critically important for photocatalytic reactions. Compared with the widely studied oxygen vacancies, engineering metal vacancies into photocatalysts and study the effect of metal vacancies on the photocatalytic performance is seldom reported. Herein, we engineering bismuth vacan...
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sg-ntu-dr.10356-1368832023-07-14T15:55:56Z Bismuth vacancy mediated single unit cell Bi2WO6 nanosheets for boosting photocatalytic oxygen evolution Di, Jun Chen, Chao Zhu, Chao Ji, Mengxia Xia, Jiexiang Yan, Cheng Hao, Wei Li, Shuzhou Li, Huaming Liu, Zheng School of Materials Science & Engineering Center for Programmable Materials Engineering::Materials Ultrathin Bi2WO Bismuth Vacancies Surface defects are critically important for photocatalytic reactions. Compared with the widely studied oxygen vacancies, engineering metal vacancies into photocatalysts and study the effect of metal vacancies on the photocatalytic performance is seldom reported. Herein, we engineering bismuth vacancies into Bi2WO6 via a template-directed strategy to form single unit cell ultrathin nanosheets. Aberration-corrected scanning transmission electron microscopy reveals the formation of bismuth vacancies in the Bi2WO6 ultrathin nanosheets. Density functional theory calculations suggest that the presence of bismuth vacancies create a new defect level in forbidden band and increased density of states at the valence band maximum, resulting in increased charge carrier concentration and electronic conductivity. Moreover, the bismuth vacancy structure benefit for the surface adsorption and activation of water molecule, which favors the water oxidation reactions. As a result, the prepared bismuth vacancy-rich Bi2WO6 exhibit significantly increased visible light photocatalytic oxygen evolution activity than the corresponding bulk Bi2WO6, which is the more challenging half-reaction for fuel-forming due to the sluggish reaction kinetics. This work open the door for designing other metal vacancies engineered photocatalysts via ultrathin-control strategy and achieving highly efficient photocatalytic performances. NRF (Natl Research Foundation, S’pore) Accepted version 2020-02-04T07:31:55Z 2020-02-04T07:31:55Z 2018 Journal Article Di, J., Chen, C., Zhu, C., Ji, M., Xia, J., Yan, C., . . . Liu, Z. (2018). Bismuth vacancy mediated single unit cell Bi2WO6 nanosheets for boosting photocatalytic oxygen evolution. Applied Catalysis B: Environmental, 238, 119-125. doi:10.1016/j.apcatb.2018.06.066 0926-3373 https://hdl.handle.net/10356/136883 10.1016/j.apcatb.2018.06.066 2-s2.0-85049658297 238 119 125 en Applied Catalysis B: Environmental © 2018 Elsevier B.V. All rights reserved. This paper was published in Applied Catalysis B: Environmental and is made available with permission of Elsevier B.V. application/pdf |
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Engineering::Materials Ultrathin Bi2WO Bismuth Vacancies |
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Engineering::Materials Ultrathin Bi2WO Bismuth Vacancies Di, Jun Chen, Chao Zhu, Chao Ji, Mengxia Xia, Jiexiang Yan, Cheng Hao, Wei Li, Shuzhou Li, Huaming Liu, Zheng Bismuth vacancy mediated single unit cell Bi2WO6 nanosheets for boosting photocatalytic oxygen evolution |
| description |
Surface defects are critically important for photocatalytic reactions. Compared with the widely studied oxygen vacancies, engineering metal vacancies into photocatalysts and study the effect of metal vacancies on the photocatalytic performance is seldom reported. Herein, we engineering bismuth vacancies into Bi2WO6 via a template-directed strategy to form single unit cell ultrathin nanosheets. Aberration-corrected scanning transmission electron microscopy reveals the formation of bismuth vacancies in the Bi2WO6 ultrathin nanosheets. Density functional theory calculations suggest that the presence of bismuth vacancies create a new defect level in forbidden band and increased density of states at the valence band maximum, resulting in increased charge carrier concentration and electronic conductivity. Moreover, the bismuth vacancy structure benefit for the surface adsorption and activation of water molecule, which favors the water oxidation reactions. As a result, the prepared bismuth vacancy-rich Bi2WO6 exhibit significantly increased visible light photocatalytic oxygen evolution activity than the corresponding bulk Bi2WO6, which is the more challenging half-reaction for fuel-forming due to the sluggish reaction kinetics. This work open the door for designing other metal vacancies engineered photocatalysts via ultrathin-control strategy and achieving highly efficient photocatalytic performances. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Di, Jun Chen, Chao Zhu, Chao Ji, Mengxia Xia, Jiexiang Yan, Cheng Hao, Wei Li, Shuzhou Li, Huaming Liu, Zheng |
| format |
Article |
| author |
Di, Jun Chen, Chao Zhu, Chao Ji, Mengxia Xia, Jiexiang Yan, Cheng Hao, Wei Li, Shuzhou Li, Huaming Liu, Zheng |
| author_sort |
Di, Jun |
| title |
Bismuth vacancy mediated single unit cell Bi2WO6 nanosheets for boosting photocatalytic oxygen evolution |
| title_short |
Bismuth vacancy mediated single unit cell Bi2WO6 nanosheets for boosting photocatalytic oxygen evolution |
| title_full |
Bismuth vacancy mediated single unit cell Bi2WO6 nanosheets for boosting photocatalytic oxygen evolution |
| title_fullStr |
Bismuth vacancy mediated single unit cell Bi2WO6 nanosheets for boosting photocatalytic oxygen evolution |
| title_full_unstemmed |
Bismuth vacancy mediated single unit cell Bi2WO6 nanosheets for boosting photocatalytic oxygen evolution |
| title_sort |
bismuth vacancy mediated single unit cell bi2wo6 nanosheets for boosting photocatalytic oxygen evolution |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/136883 |
| _version_ |
1772827379375276032 |