Asymmetric associate configuration of Nb single atoms coupled Bi-O vacancy pairs boosting CO2 photoreduction
Precisely designing the atomic coordination structure of the catalytic center is highly desired to lower the energy barrier of CO2 photoreduction. The present work shows that engineering Nb single atom coupled Bi-O vacancy pairs (VBi-O) into Bi24O31Br10 (BOB) atomic layers can create a preferential...
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sg-ntu-dr.10356-1829392025-03-10T06:25:01Z Asymmetric associate configuration of Nb single atoms coupled Bi-O vacancy pairs boosting CO2 photoreduction Di, Jun Wu, Yao Xiong, Jun Shou, Hongwei Long, Ran Chen, Hailong Zhou, Peng Zhang, Peng Cao, Xingzhong Song, Li Jiang, Wei Liu, Zheng School of Materials Science and Engineering Engineering Strong chemical interaction Strong local polarization Precisely designing the atomic coordination structure of the catalytic center is highly desired to lower the energy barrier of CO2 photoreduction. The present work shows that engineering Nb single atom coupled Bi-O vacancy pairs (VBi-O) into Bi24O31Br10 (BOB) atomic layers can create a preferential local asymmetric structure. This configuration can result in a stronger local polarization electric field and thus prolong the carrier lifetime, as proved by ultrafast transient absorption spectroscopy. Meantime, this unique Nb SA-VBi-O associate favors the formation of strong chemical interaction between key *COOH intermediate and catalytic center, thus lowering the energy barrier of the rate-limiting step. Benefiting from these features, a high CO generation rate of 76.4 μmol g-1 h-1 for CO2 photoreduction can be achieved over Nb SA-VBi-O BOB atomic layers in pure water, roughly 5.4 and 92.7 times higher than those of BOB atomic layers or bulk BOB, respectively. This work discloses an important paradigm for designing single atom coupled defect associates to optimize photocatalysis performance. Ministry of Education (MOE) This work was supported by National Natural Science Foundation of China (No. 22378206, 22205108), Jiangsu Specially Appointed Professorship, Fundamental Research Funds for the Central Universities (No. 30922010302),Singapore Ministry of Education AcRF Tier 2 MOE-MOET2EP10121-0006, National Natural Science Foundation Excellent Young Scientist Fund Project. 2025-03-10T06:25:01Z 2025-03-10T06:25:01Z 2024 Journal Article Di, J., Wu, Y., Xiong, J., Shou, H., Long, R., Chen, H., Zhou, P., Zhang, P., Cao, X., Song, L., Jiang, W. & Liu, Z. (2024). Asymmetric associate configuration of Nb single atoms coupled Bi-O vacancy pairs boosting CO2 photoreduction. ACS Catalysis, 14(23), 17818-17824. https://dx.doi.org/10.1021/acscatal.4c04407 2155-5435 https://hdl.handle.net/10356/182939 10.1021/acscatal.4c04407 2-s2.0-85209254219 23 14 17818 17824 en MOE-MOET2EP10121-0006 ACS Catalysis © 2024 American Chemical Society. All rights reserved. |
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Engineering Strong chemical interaction Strong local polarization |
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Engineering Strong chemical interaction Strong local polarization Di, Jun Wu, Yao Xiong, Jun Shou, Hongwei Long, Ran Chen, Hailong Zhou, Peng Zhang, Peng Cao, Xingzhong Song, Li Jiang, Wei Liu, Zheng Asymmetric associate configuration of Nb single atoms coupled Bi-O vacancy pairs boosting CO2 photoreduction |
| description |
Precisely designing the atomic coordination structure of the catalytic center is highly desired to lower the energy barrier of CO2 photoreduction. The present work shows that engineering Nb single atom coupled Bi-O vacancy pairs (VBi-O) into Bi24O31Br10 (BOB) atomic layers can create a preferential local asymmetric structure. This configuration can result in a stronger local polarization electric field and thus prolong the carrier lifetime, as proved by ultrafast transient absorption spectroscopy. Meantime, this unique Nb SA-VBi-O associate favors the formation of strong chemical interaction between key *COOH intermediate and catalytic center, thus lowering the energy barrier of the rate-limiting step. Benefiting from these features, a high CO generation rate of 76.4 μmol g-1 h-1 for CO2 photoreduction can be achieved over Nb SA-VBi-O BOB atomic layers in pure water, roughly 5.4 and 92.7 times higher than those of BOB atomic layers or bulk BOB, respectively. This work discloses an important paradigm for designing single atom coupled defect associates to optimize photocatalysis performance. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Di, Jun Wu, Yao Xiong, Jun Shou, Hongwei Long, Ran Chen, Hailong Zhou, Peng Zhang, Peng Cao, Xingzhong Song, Li Jiang, Wei Liu, Zheng |
| format |
Article |
| author |
Di, Jun Wu, Yao Xiong, Jun Shou, Hongwei Long, Ran Chen, Hailong Zhou, Peng Zhang, Peng Cao, Xingzhong Song, Li Jiang, Wei Liu, Zheng |
| author_sort |
Di, Jun |
| title |
Asymmetric associate configuration of Nb single atoms coupled Bi-O vacancy pairs boosting CO2 photoreduction |
| title_short |
Asymmetric associate configuration of Nb single atoms coupled Bi-O vacancy pairs boosting CO2 photoreduction |
| title_full |
Asymmetric associate configuration of Nb single atoms coupled Bi-O vacancy pairs boosting CO2 photoreduction |
| title_fullStr |
Asymmetric associate configuration of Nb single atoms coupled Bi-O vacancy pairs boosting CO2 photoreduction |
| title_full_unstemmed |
Asymmetric associate configuration of Nb single atoms coupled Bi-O vacancy pairs boosting CO2 photoreduction |
| title_sort |
asymmetric associate configuration of nb single atoms coupled bi-o vacancy pairs boosting co2 photoreduction |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182939 |
| _version_ |
1826362246774652928 |