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Ultra-highly efficient enrichment of uranium from seawater via studtite nanodots growth-elution cycle

Author

Listed:
  • Peng Gao

    (North China Electric Power University
    University of Science and Technology Beijing)

  • Yezi Hu

    (North China Electric Power University)

  • Zewen Shen

    (North China Electric Power University
    University of Science and Technology Beijing)

  • Guixia Zhao

    (North China Electric Power University)

  • Ruiqing Cai

    (North China Electric Power University
    University of Science and Technology Beijing)

  • Feng Chu

    (University of Science and Technology Beijing)

  • Zhuoyu Ji

    (North China Electric Power University)

  • Xiangke Wang

    (North China Electric Power University)

  • Xiubing Huang

    (University of Science and Technology Beijing)

Abstract

Consecutive uranium extraction from seawater is a promising approach to secure the long-term supply of uranium and the sustainability of nuclear energy. Here, we report an ultra-highly efficient strategy via studtite nanodots growth with impressive uranyl uptake capacity of ~ 154.50 mg/g from natural seawater in 12 consecutive days (i.e., average for ~ 12.875 mg/g/day). Uranyl can be extracted as studtite under visible light via the reaction between the adsorbed uranyl and the photogenerated H2O2 with imine-based Covalent-Organic Framework photocatalysts. In detail, over Tp-Bpy, Tp-Bpy-2 and Tp-Py with multiple uranyl chelating sites, uranyl is found extracted as studtite nanodots which can be eluted readily, while over Tp-Bd and Tb-Bpy, uranyl is transformed into studtite nanorods that is more inert for elution. Abundant chelating sites of uranyl via structural regulation of COF photocatalysts are proved to facilitate the formation and efficient elution of studtite nanodots.

Suggested Citation

  • Peng Gao & Yezi Hu & Zewen Shen & Guixia Zhao & Ruiqing Cai & Feng Chu & Zhuoyu Ji & Xiangke Wang & Xiubing Huang, 2024. "Ultra-highly efficient enrichment of uranium from seawater via studtite nanodots growth-elution cycle," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-50951-4
    DOI: 10.1038/s41467-024-50951-4
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