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W3091180861 endingPage "127139" @default.
W3091180861 startingPage "127139" @default.
W3091180861 abstract "• The synthesis strategies of ZIFs are briefly introduced and summarized. • Batch experiment, spectral analysis and DFT are used to explore mechanisms. • The mechanisms mainly ascribe to coordination and electrostatic interaction. • Large SSA and sufficient functional groups endow ZIFs excellent performance. • Multi-factor influences demonstrate the practical application potential of ZIFs. With the rapid economic globalization and energy development, heavy metal ions/radionuclides are inevitably discharged into aqueous system and cause pollution, which seriously endanger human health and environmental sustainability. In recent years, zeolitic imidazolate frameworks (ZIFs) with huge specific surface area, excellent pore structure and abundant surface functional groups show great potential in the elimination of heavy metal ions/radionuclides. This review systematically summarizes the research progress of ZIFs and ZIF-based materials for capturing heavy metal ions/radionuclides. Firstly, the preparation and modification of ZIF-based materials are briefly introduced. Then, the removal behaviors and possible interaction mechanisms between ZIF-based materials and pollutants are explored through macro-batch experiments, micro-spectroscopy analyses and theoretical calculations. In addition, the partition coefficient as evaluation indicator was employed to objectively compare the removal performance of ZIFs and other commonly used traditional adsorbents for heavy metal ions/radionuclides. Finally, the challenges and prospects of ZIF materials in environmental governance are briefly discussed so as to provide references for future research and practical applications." @default.
W3091180861 created "2020-10-08" @default.
W3091180861 creator A5001937247 @default.
W3091180861 creator A5002561991 @default.
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W3091180861 creator A5053383072 @default.
W3091180861 creator A5055329626 @default.
W3091180861 creator A5058873525 @default.
W3091180861 creator A5087875272 @default.
W3091180861 date "2021-02-01" @default.
W3091180861 modified "2023-10-17" @default.
W3091180861 title "Zeolitic imidazolate framework-based nanomaterials for the capture of heavy metal ions and radionuclides: A review" @default.
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