Vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for CO₂ photoreduction
Poor charge kinetics greatly reduce the efficiency of photocatalytic CO2reduction. Herein, a synchronous surface and interfacial dual polarization strategy was developed to promote charge separation. Bi-O vacancy pairs in Bi24O31Br10atomic layers can trigger strong coupling between black phosphorus...
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2023
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sg-ntu-dr.10356-1704632023-09-13T02:39:22Z Vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for CO₂ photoreduction Di, Jun Zhu, Xingwang Hao, Gazi Zhu, Chao Chen, Hailong. Liu, Qiaoxi Duan, Ruihuan Hu, Hongwei Zhang, Yi Xiong, Jun Long, Ran Xia, Jiexiang Weng, Yu-Xiang Jiang, Wei Liu, Zheng School of Materials Science and Engineering Engineering::Materials Atomic Layers Charge-Redistributed Interface Poor charge kinetics greatly reduce the efficiency of photocatalytic CO2reduction. Herein, a synchronous surface and interfacial dual polarization strategy was developed to promote charge separation. Bi-O vacancy pairs in Bi24O31Br10atomic layers can trigger strong coupling between black phosphorus (BP) and Bi24O31Br10, forming a restructured closely contacted BP-Bi24O31Br10configuration with a charge-redistributed interface via electronegativity-induced charge rebalancing. The Bi-O vacancy pairs on the surface of Bi24O31Br10and restructured BP/Bi24O31Br10interface enable synchronous surface and interfacial dual polarization, creating an electronic bridge from the interior of Bi24O31Br10to the BP surface, as proven by ultrafast transient absorption spectroscopy. This configuration favors a low CO2activation energy barrier, effectively stabilizes COOH∗ intermediates, and decreases the rate-determining step energy barrier. Benefiting from these features, the stable CO generation rate of optimized BP-Bi24O31Br10reaches up to 39.8 μmol g-1h-1via CO2photoreduction in water, which is 2.4 and 46.8 times higher than those of defective Bi24O31Br10atomic layers and defect-poor Bi24O31Br10, respectively. This study provides insights into the synchronous design of surface defects and restructured interfaces for dual polarization. Ministry of Education (MOE) This work was supported by the National Nature Science Foundation of China (22205108), the Jiangsu Specially Appointed Professorship, the Fundamental Research Funds for the Central Universities (No. 30922010302), the Start-Up Grant from the Nanjing University of Science and Technology (No. AE89991/397), and the Singapore Ministry of Education AcRF Tier 2 (MOE2019-T2-2-105), and AcRF Tier 1 RG4/17, RG161/19. 2023-09-13T02:39:22Z 2023-09-13T02:39:22Z 2022 Journal Article Di, J., Zhu, X., Hao, G., Zhu, C., Chen, H., Liu, Q., Duan, R., Hu, H., Zhang, Y., Xiong, J., Long, R., Xia, J., Weng, Y., Jiang, W. & Liu, Z. (2022). Vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for CO₂ photoreduction. ACS Catalysis, 12(24), 15728-15736. https://dx.doi.org/10.1021/acscatal.2c04675 2155-5435 https://hdl.handle.net/10356/170463 10.1021/acscatal.2c04675 2-s2.0-85143883111 24 12 15728 15736 en MOE2019-T2-2-105 RG4/17 RG161/19 ACS Catalysis © 2022 American Chemical Society. All rights reserved. |
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Engineering::Materials Atomic Layers Charge-Redistributed Interface Di, Jun Zhu, Xingwang Hao, Gazi Zhu, Chao Chen, Hailong. Liu, Qiaoxi Duan, Ruihuan Hu, Hongwei Zhang, Yi Xiong, Jun Long, Ran Xia, Jiexiang Weng, Yu-Xiang Jiang, Wei Liu, Zheng Vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for CO₂ photoreduction |
| description |
Poor charge kinetics greatly reduce the efficiency of photocatalytic CO2reduction. Herein, a synchronous surface and interfacial dual polarization strategy was developed to promote charge separation. Bi-O vacancy pairs in Bi24O31Br10atomic layers can trigger strong coupling between black phosphorus (BP) and Bi24O31Br10, forming a restructured closely contacted BP-Bi24O31Br10configuration with a charge-redistributed interface via electronegativity-induced charge rebalancing. The Bi-O vacancy pairs on the surface of Bi24O31Br10and restructured BP/Bi24O31Br10interface enable synchronous surface and interfacial dual polarization, creating an electronic bridge from the interior of Bi24O31Br10to the BP surface, as proven by ultrafast transient absorption spectroscopy. This configuration favors a low CO2activation energy barrier, effectively stabilizes COOH∗ intermediates, and decreases the rate-determining step energy barrier. Benefiting from these features, the stable CO generation rate of optimized BP-Bi24O31Br10reaches up to 39.8 μmol g-1h-1via CO2photoreduction in water, which is 2.4 and 46.8 times higher than those of defective Bi24O31Br10atomic layers and defect-poor Bi24O31Br10, respectively. This study provides insights into the synchronous design of surface defects and restructured interfaces for dual polarization. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Di, Jun Zhu, Xingwang Hao, Gazi Zhu, Chao Chen, Hailong. Liu, Qiaoxi Duan, Ruihuan Hu, Hongwei Zhang, Yi Xiong, Jun Long, Ran Xia, Jiexiang Weng, Yu-Xiang Jiang, Wei Liu, Zheng |
| format |
Article |
| author |
Di, Jun Zhu, Xingwang Hao, Gazi Zhu, Chao Chen, Hailong. Liu, Qiaoxi Duan, Ruihuan Hu, Hongwei Zhang, Yi Xiong, Jun Long, Ran Xia, Jiexiang Weng, Yu-Xiang Jiang, Wei Liu, Zheng |
| author_sort |
Di, Jun |
| title |
Vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for CO₂ photoreduction |
| title_short |
Vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for CO₂ photoreduction |
| title_full |
Vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for CO₂ photoreduction |
| title_fullStr |
Vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for CO₂ photoreduction |
| title_full_unstemmed |
Vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for CO₂ photoreduction |
| title_sort |
vacancy pair-induced charge rebalancing with surface and interfacial dual polarization for co₂ photoreduction |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170463 |
| _version_ |
1779156774120587264 |