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Enhanced removal of toxic hexavalent chromium from aqueous solution by magnetic Zr-MOF@polypyrrole: performance and mechanism

期刊

ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
卷 28, 期 11, 页码 13084-13096

出版社

SPRINGER HEIDELBERG
DOI: 10.1007/s11356-021-12341-x

关键词

Magnetic UiO-66; Ppy; Adsorption; Cr(VI); Mechanism

资金

  1. Guangzhou Science and Technology Project [201904010319]
  2. Social Development Fund of Guangdong Province [2017A020216018]
  3. Science and Technology Research Program of Chongqing Municipal Education Commission China [KJQN201801324]
  4. Foundation for High-level Talents of Chongqing University of Arts and Sciences [R2018CH11]
  5. Chongqing Science and Technology Commission of China [cstc2019jcyj-msxmX0647]

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The magnetic Zr-based metal organic framework @Polypyrrole was synthesized to remove Cr(VI) from water. The material possessed a core-double-shell structure with enhanced adsorption capability, and the removal mechanisms included electrostatic attraction, reduction, and chelation.
Magnetic Zr-based metal organic framework (UiO-66) @Polypyrrole (magnetic UiO-66@Ppy) was prepared to eliminate Cr(VI) from water. SEM and TEM results clearly revealed that the magnetic UiO-66@Ppy was a core-double-shell structure with the core of Fe3O4, inner shell UiO-66, and outer shell Ppy. The introduction of zirconium MOFs UiO-66 effectively prevented the agglomeration of polypyrrole and provided more available adsorption sites, the surface area increased from 9.57 m(2)/g (Ppy) to 10.57 m(2)/g (Fe3O4@Ppy) and 52.49 m(2)/g (magnetic UiO-66@Ppy). The magnetic UiO-66@Ppy possessed a high adsorption capacity of 259.1 mg/g in removing Cr(VI) from water. Adsorption kinetics followed the pseudo-second-order model. The removal of Cr(VI) involved the following mechanisms: (1) electrostatic attraction and ions exchange, the HCrO4- was adsorbed on the surface of magnetic UiO-66@Ppy by the protonated N(PpyN(+)) and Cl-; (2) reduction, Cr(VI) was reduced to Cr(III) by the reductive functional group(-NH-); (3) chelation, Cr(III) was immobilized on adsorbent by amine groups.

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