Synthesis of Spinel Ferrite MFe2O4 (M = Co, Cu, Mn, and Zn) for Persulfate Activation to Remove Aqueous Organics: Effects of M-Site Metal and Synthetic Method

Synthesis of Spinel Ferrite MFe2O4 (M = Co, Cu, Mn, and Zn) for Persulfate Activation to Remove Aqueous Organics: Effects of M-Site Metal and Synthetic Method

Metal species and synthetic method determine the characteristics of spinel ferrite MFe2O4. Herein, a series of MFe2O4 (M = Co, Cu, Mn, Zn) were synthesized to investigate the effect of M-site metal on persulfate activation for the removal of organics from aqueous solution. Results showed that M-site...

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Main Authors: Guang Xian, Shengyan Kong, Qiangang Li, Guangming Zhang, Ningyu Zhou, Hongbiao Du, Lijun Niu
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-03-01
Series:Frontiers in Chemistry
Subjects:
ferrite
M-site metal
synthesis
persulfate
organics
Online Access:https://www.frontiersin.org/article/10.3389/fchem.2020.00177/full
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spelling doaj-d4241096a52e45a9bf0d245aa2afe14f2020-11-25T01:41:39ZengFrontiers Media S.A.Frontiers in Chemistry2296-26462020-03-01810.3389/fchem.2020.00177523528Synthesis of Spinel Ferrite MFe2O4 (M = Co, Cu, Mn, and Zn) for Persulfate Activation to Remove Aqueous Organics: Effects of M-Site Metal and Synthetic MethodGuang Xian0Guang Xian1Shengyan Kong2Qiangang Li3Guangming Zhang4Guangming Zhang5Ningyu Zhou6Hongbiao Du7Lijun Niu8School of Environment & Natural Resource, Renmin University of China, Beijing, ChinaDepartment of Military Installations, Army Logistics University of PLA, Chongqing, ChinaSchool of Environment & Natural Resource, Renmin University of China, Beijing, ChinaSchool of Environment & Natural Resource, Renmin University of China, Beijing, ChinaSchool of Environment & Natural Resource, Renmin University of China, Beijing, ChinaSchool of Energy & Environmental Engineering, Hebei University of Technology, Tianjin, ChinaDepartment of Military Installations, Army Logistics University of PLA, Chongqing, ChinaSchool of Environment & Natural Resource, Renmin University of China, Beijing, ChinaSchool of Environment & Natural Resource, Renmin University of China, Beijing, ChinaMetal species and synthetic method determine the characteristics of spinel ferrite MFe2O4. Herein, a series of MFe2O4 (M = Co, Cu, Mn, Zn) were synthesized to investigate the effect of M-site metal on persulfate activation for the removal of organics from aqueous solution. Results showed that M-site metal of MFe2O4 significantly influenced the catalytic persulfate oxidation of organics. The efficiency of the removal of organics using different MFe2O4 + persulfate systems followed the order of CuFe2O4 > CoFe2O4 > MnFe2O4 > ZnFe2O4. Temperature-programmed oxidation and cyclic voltammetry analyses indicated that M-site metal affected the catalyst reducibility, reversibility of M2+/M3+ redox couple, and electron transfer, and the strengths of these capacities were consistent with the catalytic performance. Besides, it was found that surface hydroxyl group was not the main factor affecting the reactivity of MFe2O4 in persulfate solution. Moreover, synthetic methods (sol–gel, solvothermal, and coprecipitation) for MFe2O4 were further compared. Characterization showed that sol–gel induced good purity, porous structure, large surface area, and favorable element chemical states for ferrite. Consequently, the as-synthesized CuFe2O4 showed better catalytic performance in the removal of organics (96.8% for acid orange 7 and 62.7% for diclofenac) along with good reusability compared with those obtained by solvothermal and coprecipitation routes. This work provides a deeper understanding of spinel ferrite MFe2O4 synthesis and persulfate activation.https://www.frontiersin.org/article/10.3389/fchem.2020.00177/fullferriteM-site metalsynthesispersulfateorganics
collection DOAJ
language English
format Article
sources DOAJ
author Guang Xian
Guang Xian
Shengyan Kong
Qiangang Li
Guangming Zhang
Guangming Zhang
Ningyu Zhou
Hongbiao Du
Lijun Niu
spellingShingle Guang Xian
Guang Xian
Shengyan Kong
Qiangang Li
Guangming Zhang
Guangming Zhang
Ningyu Zhou
Hongbiao Du
Lijun Niu
Synthesis of Spinel Ferrite MFe2O4 (M = Co, Cu, Mn, and Zn) for Persulfate Activation to Remove Aqueous Organics: Effects of M-Site Metal and Synthetic Method
Frontiers in Chemistry
ferrite
M-site metal
synthesis
persulfate
organics
author_facet Guang Xian
Guang Xian
Shengyan Kong
Qiangang Li
Guangming Zhang
Guangming Zhang
Ningyu Zhou
Hongbiao Du
Lijun Niu
author_sort Guang Xian
title Synthesis of Spinel Ferrite MFe2O4 (M = Co, Cu, Mn, and Zn) for Persulfate Activation to Remove Aqueous Organics: Effects of M-Site Metal and Synthetic Method
title_short Synthesis of Spinel Ferrite MFe2O4 (M = Co, Cu, Mn, and Zn) for Persulfate Activation to Remove Aqueous Organics: Effects of M-Site Metal and Synthetic Method
title_full Synthesis of Spinel Ferrite MFe2O4 (M = Co, Cu, Mn, and Zn) for Persulfate Activation to Remove Aqueous Organics: Effects of M-Site Metal and Synthetic Method
title_fullStr Synthesis of Spinel Ferrite MFe2O4 (M = Co, Cu, Mn, and Zn) for Persulfate Activation to Remove Aqueous Organics: Effects of M-Site Metal and Synthetic Method
title_full_unstemmed Synthesis of Spinel Ferrite MFe2O4 (M = Co, Cu, Mn, and Zn) for Persulfate Activation to Remove Aqueous Organics: Effects of M-Site Metal and Synthetic Method
title_sort synthesis of spinel ferrite mfe2o4 (m = co, cu, mn, and zn) for persulfate activation to remove aqueous organics: effects of m-site metal and synthetic method
publisher Frontiers Media S.A.
series Frontiers in Chemistry
issn 2296-2646
publishDate 2020-03-01
description Metal species and synthetic method determine the characteristics of spinel ferrite MFe2O4. Herein, a series of MFe2O4 (M = Co, Cu, Mn, Zn) were synthesized to investigate the effect of M-site metal on persulfate activation for the removal of organics from aqueous solution. Results showed that M-site metal of MFe2O4 significantly influenced the catalytic persulfate oxidation of organics. The efficiency of the removal of organics using different MFe2O4 + persulfate systems followed the order of CuFe2O4 > CoFe2O4 > MnFe2O4 > ZnFe2O4. Temperature-programmed oxidation and cyclic voltammetry analyses indicated that M-site metal affected the catalyst reducibility, reversibility of M2+/M3+ redox couple, and electron transfer, and the strengths of these capacities were consistent with the catalytic performance. Besides, it was found that surface hydroxyl group was not the main factor affecting the reactivity of MFe2O4 in persulfate solution. Moreover, synthetic methods (sol–gel, solvothermal, and coprecipitation) for MFe2O4 were further compared. Characterization showed that sol–gel induced good purity, porous structure, large surface area, and favorable element chemical states for ferrite. Consequently, the as-synthesized CuFe2O4 showed better catalytic performance in the removal of organics (96.8% for acid orange 7 and 62.7% for diclofenac) along with good reusability compared with those obtained by solvothermal and coprecipitation routes. This work provides a deeper understanding of spinel ferrite MFe2O4 synthesis and persulfate activation.
topic ferrite
M-site metal
synthesis
persulfate
organics
url https://www.frontiersin.org/article/10.3389/fchem.2020.00177/full
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