Synergistic mediation of dual donor levels in CNS/BOCB-OV heterojunctions for enhanced photocatalytic CO2 reduction
We have successfully grown BiOClxBr1−x nanosheets with oxygen vacancies (BOCB-OV) on the surface of ultrathin g-C3N4 (CNS) to form heterostructures through a solvothermal approach that creates N-vacancies on CNS. The heterojunction formation promotes CO2 adsorption with activation and broadens light...
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sg-ntu-dr.10356-1746782024-04-12T15:47:53Z Synergistic mediation of dual donor levels in CNS/BOCB-OV heterojunctions for enhanced photocatalytic CO2 reduction Fang, Ruiming Yang, Zhongqing Sun, Jiajun Zhu, Chenxuan Chen,Yanglin Wang, Ziqi Xue, Can School of Materials Science and Engineering Engineering Absorption capacity CO2 reduction We have successfully grown BiOClxBr1−x nanosheets with oxygen vacancies (BOCB-OV) on the surface of ultrathin g-C3N4 (CNS) to form heterostructures through a solvothermal approach that creates N-vacancies on CNS. The heterojunction formation promotes CO2 adsorption with activation and broadens light-harvesting capabilities. Moreover, the intimate contact between CNS and BOCB-OV creates an interfacial electric field directed from CNS to BOCB-OV, facilitating separation and transfer of photogenerated charge carriers. Importantly, introduction of nitrogen/oxygen vacancies in CNS/BOCB-OV leads to new donor energy levels in the bandgap, which boosts the light absorption capacity and provides a stable pathway for charge transfer across heterojunctions. Consequently, the CNS/BOCB-OV heterostructures exhibited greatly enhanced photocatalytic activities for CO2 reduction. Further, by combining DFT calculation and in situ FTIR characterization, the photocatalytic reaction mechanism and possible CO2 reduction pathways are elucidated. The combination of heterostructure construction and defect engineering provides a promising strategy for developing efficient two-dimensional heterostructure photocatalysts. Ministry of Education (MOE) Submitted/Accepted version This work was supported by the National Natural Science Foundation of China (52276099). Mr Ruiming Fang sincerely acknowledges the support of the China Scholarship Council (Grant No. 202206050127). C. Xue and Y. L. Chen are thankful for the support from the Ministry of Education, Singapore, under AcRF-Tier1 (2021-T1-002-012, RG65/21). 2024-04-07T11:02:35Z 2024-04-07T11:02:35Z 2024 Journal Article Fang, R., Yang, Z., Sun, J., Zhu, C., Chen, Y., Wang, Z. & Xue, C. (2024). Synergistic mediation of dual donor levels in CNS/BOCB-OV heterojunctions for enhanced photocatalytic CO2 reduction. Journal of Materials Chemistry A, 12(6), 3398-3410. https://dx.doi.org/10.1039/d3ta07006a 2050-7488 https://hdl.handle.net/10356/174678 10.1039/d3ta07006a 2-s2.0-85182350792 6 12 3398 3410 en 2021-T1-002-012 RG65/21 Journal of Materials Chemistry A © 2024 The Author(s). Published by The Royal Society of Chemistry. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1039/D3TA07006A. application/pdf |
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Engineering Absorption capacity CO2 reduction |
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Engineering Absorption capacity CO2 reduction Fang, Ruiming Yang, Zhongqing Sun, Jiajun Zhu, Chenxuan Chen,Yanglin Wang, Ziqi Xue, Can Synergistic mediation of dual donor levels in CNS/BOCB-OV heterojunctions for enhanced photocatalytic CO2 reduction |
| description |
We have successfully grown BiOClxBr1−x nanosheets with oxygen vacancies (BOCB-OV) on the surface of ultrathin g-C3N4 (CNS) to form heterostructures through a solvothermal approach that creates N-vacancies on CNS. The heterojunction formation promotes CO2 adsorption with activation and broadens light-harvesting capabilities. Moreover, the intimate contact between CNS and BOCB-OV creates an interfacial electric field directed from CNS to BOCB-OV, facilitating separation and transfer of photogenerated charge carriers. Importantly, introduction of nitrogen/oxygen vacancies in CNS/BOCB-OV leads to new donor energy levels in the bandgap, which boosts the light absorption capacity and provides a stable pathway for charge transfer across heterojunctions. Consequently, the CNS/BOCB-OV heterostructures exhibited greatly enhanced photocatalytic activities for CO2 reduction. Further, by combining DFT calculation and in situ FTIR characterization, the photocatalytic reaction mechanism and possible CO2 reduction pathways are elucidated. The combination of heterostructure construction and defect engineering provides a promising strategy for developing efficient two-dimensional heterostructure photocatalysts. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Fang, Ruiming Yang, Zhongqing Sun, Jiajun Zhu, Chenxuan Chen,Yanglin Wang, Ziqi Xue, Can |
| format |
Article |
| author |
Fang, Ruiming Yang, Zhongqing Sun, Jiajun Zhu, Chenxuan Chen,Yanglin Wang, Ziqi Xue, Can |
| author_sort |
Fang, Ruiming |
| title |
Synergistic mediation of dual donor levels in CNS/BOCB-OV heterojunctions for enhanced photocatalytic CO2 reduction |
| title_short |
Synergistic mediation of dual donor levels in CNS/BOCB-OV heterojunctions for enhanced photocatalytic CO2 reduction |
| title_full |
Synergistic mediation of dual donor levels in CNS/BOCB-OV heterojunctions for enhanced photocatalytic CO2 reduction |
| title_fullStr |
Synergistic mediation of dual donor levels in CNS/BOCB-OV heterojunctions for enhanced photocatalytic CO2 reduction |
| title_full_unstemmed |
Synergistic mediation of dual donor levels in CNS/BOCB-OV heterojunctions for enhanced photocatalytic CO2 reduction |
| title_sort |
synergistic mediation of dual donor levels in cns/bocb-ov heterojunctions for enhanced photocatalytic co2 reduction |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174678 |
| _version_ |
1800916177141104640 |