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      An imidazole-based covalent-organic framework enabling a super-efficiency in sunlight-driven uranium extraction from seawater†

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      a , a , , a , b , a ,
      Chemical Science
      The Royal Society of Chemistry

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          Abstract

          Uranium extraction from seawater represents an effective way to solve the difficulty of the insufficient uranium supply chain. However, this route is still restricted by the low extraction efficiency of reported adsorbents. Here, we find that reversing the donor–acceptor in imidazole-based COFs (covalent-organic frameworks) would be effective for enhancing the extraction efficiency of uranium. As a result, the TI-COF is found to enable a uranium extraction efficiency up to 8.8 mg g −1 day −1 from seawater under visible light irradiation, exceeding all established adsorbents for such use, and an unprecedented uranium extraction efficiency up to 6.9 mg g −1 day −1 from seawater under natural sunlight.

          Abstract

          The natural sunlight is for the first time used to acquire the key of nuclear energy, uranium, from natural seawater with an ultrahigh extraction efficiency of 6.9 mg g −1 day −1 upon a novel COF photocatalyst with ultralow exciton binding energy.

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          Author and article information

          Journal
          Chem Sci
          Chem Sci
          SC
          CSHCBM
          Chemical Science
          The Royal Society of Chemistry
          2041-6520
          2041-6539
          7 June 2024
          17 July 2024
          7 June 2024
          : 15
          : 28
          : 10882-10891
          Affiliations
          [a ] School of Chemistry and Materials Science, East China University of Technology Nanchang 330013 China xffeng@ 123456ecut.edu.cn ecitluofeng@ 123456163.com
          [b ] National Engineering Research Center for Carbohydrate Synthesis, Jiangxi Normal University Nanchang 330027 China
          Author information
          https://orcid.org/0000-0001-6380-2754
          Article
          d4sc02554g
          10.1039/d4sc02554g
          11253174
          39027273
          8844abf6-6054-4010-bfdd-2c45cb4b2c04
          This journal is © The Royal Society of Chemistry
          History
          : 18 April 2024
          : 6 June 2024
          Page count
          Pages: 10
          Funding
          Funded by: National Natural Science Foundation of China, doi 10.13039/501100001809;
          Award ID: 22376024
          Categories
          Chemistry
          Custom metadata
          Paginated Article

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