Innovative Conversion Strategy for Wastewater with One‐Pot Uranium Extraction and Valuable Chemical Production by a Smart COF Photocatalyst

Innovative Conversion Strategy for Wastewater with One‐Pot Uranium Extraction and Valuable Chemical Production by a Smart COF Photocatalyst

Environmental protection and resource reclamation make the extraction of uranium from uranium‐containing wastewater be a key role in the nuclear chemistry and industry. Although previous studies have revealed several effective methods and materials for such use, however, few studies are concerned ab...

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Bibliographic Details
Published in:Advanced functional materials Vol. 34; no. 29
Main Authors: Guo, Liecheng, Yang, Yuting, Gong, Lele, Zhang, Qingyun, Liao, Yuxin, Hua, Rong, Yu, Zhiwu, Luo, Feng
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc 01-07-2024
Subjects:
Azo compounds
Chemical reduction
COF
conversion approach
Discharge
Electronic structure
Environmental protection
H2O2 production
Hydrogen peroxide
Light irradiation
Nuclear chemistry
Oxidation
Photocatalysis
photocatalyst
Ultraviolet radiation
Uranium
uranium revmoal
uranium‐containing wastewater
Wastewater treatment
Water reclamation
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Summary:Environmental protection and resource reclamation make the extraction of uranium from uranium‐containing wastewater be a key role in the nuclear chemistry and industry. Although previous studies have revealed several effective methods and materials for such use, however, few studies are concerned about the wastewater discharge issues. In fact, the direct discharge of treated wastewater into the environment is still not a green way. Here, an innovative conversion approach is shown, which can simultaneously achieve the uranium extraction and conversion of wastewater to valuable chemical. This concept is implemented by an azobenzene‐pendent covalent organic framework, showing smart trans‐to‐cis photoresponsive properties in both space and electronic structure and consequently, largely enhanced extraction and conversion efficiency under UV irradiation, relative to visible light irradiation. In real wastewater, the material is found to give selective and 100% uranium extraction and H2O2 generation (1872.3 µmol g−1 h−1). The mechanism is due to a unique photocatalysis coupling between the uranium reduction reaction (URR), aiming at uranium recovery or removal, and the water oxidation reaction (WOR), targeting the conversion of wastewater into a valuable chemical of H2O2. A new concept of isomerization‐promoted photocatalysis in an azobenzene‐pendent COF is demonstrated here. And a positive coupling effect between two photocatalysis reactions is also for the first time observed, thus providing a promising pathway for uranium‐containing wastewater treatment with both uranium removal and H2O2 production.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.202400588