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Indexed by:Journal Papers

Date of Publication:2015-12-01

Journal:APPLIED CATALYSIS B-ENVIRONMENTAL

Included Journals:SCIE、EI、Scopus

Volume:179

Page Number:500-508

ISSN No.:0926-3373

Key Words:Metal organic frameworks (MOFs); Organic-acid-directed approach; Iron-carbon oxide nanoparticles; Unsaturated metal sites; Synergistic effect

Abstract:Through a simple organic-acid-directed approach, in situ growth of iron-carbon oxide nanoparticles (NPs) were assembled on the coordinatively unsaturated Cr sites (CUSs) of MIL-101 and inserted into its cavities orderly for the first time. When citric acid was employed, the incorporation of more small NPs within the cage of metal organic frameworks (MOFs) without agglomeration on external surface can easily be achieved compared with traditional solution infiltration method, and the intact morphology structure, high crystallinity and porosity were remained for MIL-101 after supporting. The provided strategy was helpful to rational design of well dispersed metal-based NPs by enhancing the interaction between metal precursor and MOFs. Experimental results showed that Fe-C oxides immobilized to MIL-101 in the presence of citric acid or tartaric acid had remarkable catalytic activity for visible-light assisted Fenton reaction at neutral pH and possessed excellent tolerance for organic pollutant poisoning. Compared with other supports, such as TiO2, clays, mesoporous NH2-SiO2 and MIL-53(Cr), the MIL-101 supported catalyst exhibited higher activity for activation of hydrogen peroxide, which was attributed to the unique structure/properties of support and favorable synergetic effect of [Fe-O-C] sites and Cr nodes of MIL-101. The progress will bring valuable insights to develop high-performance heterogeneous catalysts for the green photocatalytic oxidation and environmental remediation. (C) 2015 Elsevier B.V. All rights reserved.