An unlocked two-dimensional conductive Zn-MOF on polymeric carbon nitride for photocatalytic H₂O₂ production
Developing highly efficient catalytic sites for O2 reduction to H2O2, while ensuring the fast injection of energetic electrons into these sites, is crucial for artificial H2O2 photosynthesis but remains challenging. Herein, we report a strongly coupled hybrid photocatalyst comprising polymeric carbo...
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sg-ntu-dr.10356-1722652023-12-08T15:31:39Z An unlocked two-dimensional conductive Zn-MOF on polymeric carbon nitride for photocatalytic H₂O₂ production Li, Yunxiang Guo, Yan Luan, Deyan Gu, Xiaojun Lou, David Xiong Wen School of Chemistry, Chemical Engineering and Biotechnology Science::Chemistry Conductive Metal–Organic Framework H₂O₂ Production Developing highly efficient catalytic sites for O2 reduction to H2O2, while ensuring the fast injection of energetic electrons into these sites, is crucial for artificial H2O2 photosynthesis but remains challenging. Herein, we report a strongly coupled hybrid photocatalyst comprising polymeric carbon nitride (CN) and a two-dimensional conductive Zn-containing metal–organic framework (Zn-MOF) (denoted as CN/Zn-MOF(lc)/400; lc, low crystallinity; 400, annealing temperature in °C), in which the catalytic capability of Zn-MOF(lc) for H2O2 production is unlocked by the annealing-induced effects. As revealed by experimental and theoretical calculation results, the Zn sites coordinated to four O (Zn-O4) in Zn-MOF(lc) are thermally activated to a relatively electron-rich state due to the annealing-induced local structure shrinkage, which favors the formation of a key *OOH intermediate of 2e− O2 reduction on these sites. Moreover, the annealing treatment facilitates the photoelectron migration from the CN photocatalyst to the Zn-MOF(lc) catalytic unit. As a result, the optimized catalyst exhibits dramatically enhanced H2O2 production activity and excellent stability under visible light irradiation. Ministry of Education (MOE) Submitted/Accepted version The authors acknowledge the funding support from the Ministry of Education of Singapore through the Academic Research Fund (AcRF) Tier-2 grant (MOE2019-T2-2-049). X.J.G. acknowledges the funding support from the Science and Technology Projects of Inner Mongolia Autonomous Region (2021GG0195). 2023-12-05T02:21:39Z 2023-12-05T02:21:39Z 2023 Journal Article Li, Y., Guo, Y., Luan, D., Gu, X. & Lou, D. X. W. (2023). An unlocked two-dimensional conductive Zn-MOF on polymeric carbon nitride for photocatalytic H₂O₂ production. Angewandte Chemie International Edition, 62(44), e202310847-. https://dx.doi.org/10.1002/anie.202310847 1433-7851 https://hdl.handle.net/10356/172265 10.1002/anie.202310847 44 62 e202310847 en MOE2019-T2-2-049 Angewandte Chemie International Edition © 2023 Wiley-VCH GmbH. 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/10.1002/anie.202310847. application/pdf |
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Science::Chemistry Conductive Metal–Organic Framework H₂O₂ Production Li, Yunxiang Guo, Yan Luan, Deyan Gu, Xiaojun Lou, David Xiong Wen An unlocked two-dimensional conductive Zn-MOF on polymeric carbon nitride for photocatalytic H₂O₂ production |
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Developing highly efficient catalytic sites for O2 reduction to H2O2, while ensuring the fast injection of energetic electrons into these sites, is crucial for artificial H2O2 photosynthesis but remains challenging. Herein, we report a strongly coupled hybrid photocatalyst comprising polymeric carbon nitride (CN) and a two-dimensional conductive Zn-containing metal–organic framework (Zn-MOF) (denoted as CN/Zn-MOF(lc)/400; lc, low crystallinity; 400, annealing temperature in °C), in which the catalytic capability of Zn-MOF(lc) for H2O2 production is unlocked by the annealing-induced effects. As revealed by experimental and theoretical calculation results, the Zn sites coordinated to four O (Zn-O4) in Zn-MOF(lc) are thermally activated to a relatively electron-rich state due to the annealing-induced local structure shrinkage, which favors the formation of a key *OOH intermediate of 2e− O2 reduction on these sites. Moreover, the annealing treatment facilitates the photoelectron migration from the CN photocatalyst to the Zn-MOF(lc) catalytic unit. As a result, the optimized catalyst exhibits dramatically enhanced H2O2 production activity and excellent stability under visible light irradiation. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Li, Yunxiang Guo, Yan Luan, Deyan Gu, Xiaojun Lou, David Xiong Wen |
| format |
Article |
| author |
Li, Yunxiang Guo, Yan Luan, Deyan Gu, Xiaojun Lou, David Xiong Wen |
| author_sort |
Li, Yunxiang |
| title |
An unlocked two-dimensional conductive Zn-MOF on polymeric carbon nitride for photocatalytic H₂O₂ production |
| title_short |
An unlocked two-dimensional conductive Zn-MOF on polymeric carbon nitride for photocatalytic H₂O₂ production |
| title_full |
An unlocked two-dimensional conductive Zn-MOF on polymeric carbon nitride for photocatalytic H₂O₂ production |
| title_fullStr |
An unlocked two-dimensional conductive Zn-MOF on polymeric carbon nitride for photocatalytic H₂O₂ production |
| title_full_unstemmed |
An unlocked two-dimensional conductive Zn-MOF on polymeric carbon nitride for photocatalytic H₂O₂ production |
| title_sort |
unlocked two-dimensional conductive zn-mof on polymeric carbon nitride for photocatalytic h₂o₂ production |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172265 |
| _version_ |
1784855548717432832 |