Electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven H2O2 production
Pyridyl-conjugated microporous polymers (CMPs) were synthesized and discovered that the catalyst with a five-membered heterocycle could facilitate O2 reduction and H2O oxidation into H2O2 under photo-irradiation. The electronic state structure of the CMPs was further modulated by incorporating aldeh...
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sg-ntu-dr.10356-1801852024-09-23T06:01:40Z Electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven H2O2 production Gao, Tao Yang, Chen Zheng, Yong Shen, Yi Wang, Qiao Wang, Long Xu, Run Lv, Minghui Li, Mingjin Shi, Zhonglian Wang, Li Kong, Xin Ying Ye, Liqun School of Chemistry, Chemical Engineering and Biotechnology Engineering Photocatalysis Five-membered heterocyclic Pyridyl-conjugated microporous polymers (CMPs) were synthesized and discovered that the catalyst with a five-membered heterocycle could facilitate O2 reduction and H2O oxidation into H2O2 under photo-irradiation. The electronic state structure of the CMPs was further modulated by incorporating aldehyde-based monomers containing five-membered heterocycles. It was observed that the introduction of an electron-donating thiophene ring (Th-CMP) or a furan ring (Fu-CMP) significantly increased the H2O2 production yield. Remarkably, the H2O2 yield from Th-CMP in pure water and O2, without the need for any sacrificial agents, achieved 855 μM h-1, which surpasses most of the reported organic polymer photocatalysts. Mechanism researchs indicated Thiophene groups not only expanded the range for visible light absorption, but also facilitates the separation and migration of charge carriers, thereby providing favorable conditions for H2O2 generation. This study presents a promising and innovative direction to designing cost-effective and efficient CMPs for the photocatalytic generation of H2O2. This work is supported by the National Natural Science Foundation of China (51872147), Hubei Provincial Natural Science Foundation of China (No. 2022CFB820, 2022CFA065), and the 111 Project (D20015). 2024-09-23T06:01:39Z 2024-09-23T06:01:39Z 2024 Journal Article Gao, T., Yang, C., Zheng, Y., Shen, Y., Wang, Q., Wang, L., Xu, R., Lv, M., Li, M., Shi, Z., Wang, L., Kong, X. Y. & Ye, L. (2024). Electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven H2O2 production. Applied Catalysis B: Environment and Energy, 346, 123761-. https://dx.doi.org/10.1016/j.apcatb.2024.123761 0926-3373 https://hdl.handle.net/10356/180185 10.1016/j.apcatb.2024.123761 2-s2.0-85183145828 346 123761 en Applied Catalysis B: Environment and Energy © 2024 Elsevier B.V. All rights reserved. |
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Engineering Photocatalysis Five-membered heterocyclic |
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Engineering Photocatalysis Five-membered heterocyclic Gao, Tao Yang, Chen Zheng, Yong Shen, Yi Wang, Qiao Wang, Long Xu, Run Lv, Minghui Li, Mingjin Shi, Zhonglian Wang, Li Kong, Xin Ying Ye, Liqun Electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven H2O2 production |
| description |
Pyridyl-conjugated microporous polymers (CMPs) were synthesized and discovered that the catalyst with a five-membered heterocycle could facilitate O2 reduction and H2O oxidation into H2O2 under photo-irradiation. The electronic state structure of the CMPs was further modulated by incorporating aldehyde-based monomers containing five-membered heterocycles. It was observed that the introduction of an electron-donating thiophene ring (Th-CMP) or a furan ring (Fu-CMP) significantly increased the H2O2 production yield. Remarkably, the H2O2 yield from Th-CMP in pure water and O2, without the need for any sacrificial agents, achieved 855 μM h-1, which surpasses most of the reported organic polymer photocatalysts. Mechanism researchs indicated Thiophene groups not only expanded the range for visible light absorption, but also facilitates the separation and migration of charge carriers, thereby providing favorable conditions for H2O2 generation. This study presents a promising and innovative direction to designing cost-effective and efficient CMPs for the photocatalytic generation of H2O2. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Gao, Tao Yang, Chen Zheng, Yong Shen, Yi Wang, Qiao Wang, Long Xu, Run Lv, Minghui Li, Mingjin Shi, Zhonglian Wang, Li Kong, Xin Ying Ye, Liqun |
| format |
Article |
| author |
Gao, Tao Yang, Chen Zheng, Yong Shen, Yi Wang, Qiao Wang, Long Xu, Run Lv, Minghui Li, Mingjin Shi, Zhonglian Wang, Li Kong, Xin Ying Ye, Liqun |
| author_sort |
Gao, Tao |
| title |
Electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven H2O2 production |
| title_short |
Electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven H2O2 production |
| title_full |
Electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven H2O2 production |
| title_fullStr |
Electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven H2O2 production |
| title_full_unstemmed |
Electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven H2O2 production |
| title_sort |
electron-donating five-membered heterocyclic modulated electronic states boosting visible-light-driven h2o2 production |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180185 |
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1814047207392804864 |