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Cu-containing MFI zeolites as catalysts for wet peroxide oxidation of formic acid as model organic contaminant

•Cu- and Fe-substituted zeolites in CWPO of formic acid were systematically examined.•Cu-ZSM-5-30 (0.5–1.5wt% Cu) catalysts are most promising for CWPO.•High efficiency is provided by square-planar Cu oxide clusters in zeolite channels. The catalytic behavior of different Cu(Fe)/zeolite catalysts wi...

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Published in:Applied catalysis. B, Environmental Environmental, 2013-08, Vol.140-141, p.506-515
Main Authors: Taran, Oxana P., Yashnik, Svetlana A., Ayusheev, Artemiy B., Piskun, Anna S., Prihod’ko, Roman V., Ismagilov, Zinfer R., Goncharuk, Vladislav V., Parmon, Valentin N.
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cited_by cdi_FETCH-LOGICAL-c376t-a7fb057b252969b0f65e374c587d97addc2153862c3dfdabde16413501f6a6c03
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container_title Applied catalysis. B, Environmental
container_volume 140-141
creator Taran, Oxana P.
Yashnik, Svetlana A.
Ayusheev, Artemiy B.
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Goncharuk, Vladislav V.
Parmon, Valentin N.
description •Cu- and Fe-substituted zeolites in CWPO of formic acid were systematically examined.•Cu-ZSM-5-30 (0.5–1.5wt% Cu) catalysts are most promising for CWPO.•High efficiency is provided by square-planar Cu oxide clusters in zeolite channels. The catalytic behavior of different Cu(Fe)/zeolite catalysts with the MFI morphology in wet peroxide oxidation of formic acid as a model organic substrate was thoroughly examined. The influence of the method for Cu2+ ions introduction into the zeolite matrix, Cu loading and the electron state of Cu on catalytic properties of zeolites, including their stability to leaching of Cu was studied. Cu-substituted ZSM-5 zeolites with the atomic ratio Si/Al=30 and Cu content of 0.5–1.5, which were prepared by ion exchange, were shown most promising for wet peroxide oxidation. The impact of temperature, initial pH and concentrations of reagents on the catalytic performance of the catalyst with the optimal composition also was studied. The characterization of fresh and spent catalysts using UV–vis DR and ESR spectroscopic techniques led to suppose that the high efficiency of Cu-ZSM-5 to redox reactions in aqueous media is provided by nanostructured square-planar copper oxide clusters localized in the zeolite channels.
doi_str_mv 10.1016/j.apcatb.2013.04.050
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source ScienceDirect Journals
subjects Catalysis
Catalysts
Catalytic wet peroxide oxidation
Copper
Cu-exchanged zeolites
Cu-ZSM-5
Formic acid
MFI
Oxidation
Peroxides
Zeolites
title Cu-containing MFI zeolites as catalysts for wet peroxide oxidation of formic acid as model organic contaminant
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