2023
DOI: 10.1002/aoc.7279
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Efficient extraction of Uranium (VI) from aqueous solution by LDH/MOF composites

Yuming Xie,
Guolin Huang,
Jiangang Li
et al.

Abstract: Study on uranium adsorption materials is crucial in addressing uranium pollution and safeguarding water resources. In this paper, a novel Ni/Co‐LDH@ZIF‐67/8‐MOF (LDH/MOF) composite was fabricated by loading ZIF‐67/8‐MOF on the surface of Ni/Co‐LDH with silane coupling group as bonding agent. The LDH/MOF composite was tested by XRD, FT‐IR, SEM, TGA, and XPS methods. The LDH/MOF composite exhibited exceptional uranium (U (VI)) adsorption capacity, with the Langmuir isotherm model estimating a maximum adsorption … Show more

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Cited by 7 publications
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“…Uranium (U) present in wastewaters produced via its mining, processing, and use in the nuclear fuel cycle is a significant environmental concern , with a range of potential ecotoxicological effects identified. , This includes the presence of U in the remediation of contaminated solutes produced during various processes associated with the nuclear fuel cycle, including U-mining, effluents from spent nuclear fuel reprocessing, nuclear fuel storage facilities, , U enrichment sites that are subject to decommissioning, , or cleanup procedures following the nuclear accidents. , To address these challenges, and especially when other radionuclides including transuranics such as plutonium and americium isotopes, and fission products including 90 Sr and 137 Cs may also be present, several studies have investigated U capture using various materials including layered double hydroxides (LDHs) formed in situ or prefabricated LDHs as adsorbents. , …”
Section: Introductionmentioning
confidence: 99%
“…Uranium (U) present in wastewaters produced via its mining, processing, and use in the nuclear fuel cycle is a significant environmental concern , with a range of potential ecotoxicological effects identified. , This includes the presence of U in the remediation of contaminated solutes produced during various processes associated with the nuclear fuel cycle, including U-mining, effluents from spent nuclear fuel reprocessing, nuclear fuel storage facilities, , U enrichment sites that are subject to decommissioning, , or cleanup procedures following the nuclear accidents. , To address these challenges, and especially when other radionuclides including transuranics such as plutonium and americium isotopes, and fission products including 90 Sr and 137 Cs may also be present, several studies have investigated U capture using various materials including layered double hydroxides (LDHs) formed in situ or prefabricated LDHs as adsorbents. , …”
Section: Introductionmentioning
confidence: 99%