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Low-Temperature Reduction Synthesis of γ–Fe 2 O 3−x @biochar Catalysts and Their Combining with Peroxymonosulfate for Quinclorac Degradation

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  • Mei-e Zhong

    (School of Chemistry and Materials Science, Hunan Agricultural University, No.1 Nongda Road, Furong District, Changsha 410128, China
    These authors contributed equally to this work.)

  • Gongsong Tong

    (School of Chemistry and Materials Science, Hunan Agricultural University, No.1 Nongda Road, Furong District, Changsha 410128, China
    These authors contributed equally to this work.)

  • Jingchun Sun

    (School of Chemistry and Materials Science, Hunan Agricultural University, No.1 Nongda Road, Furong District, Changsha 410128, China)

  • Nan Zhou

    (School of Chemistry and Materials Science, Hunan Agricultural University, No.1 Nongda Road, Furong District, Changsha 410128, China)

  • Chunxia Ding

    (School of Chemistry and Materials Science, Hunan Agricultural University, No.1 Nongda Road, Furong District, Changsha 410128, China)

  • Xiangying Liu

    (College of Plant Protection, Hunan Agricultural University, No.1 Nongda Road, Furong District, Changsha 410128, China
    Hunan Provincial Key Laboratory for Biology and Control of Weeds, Hunan Agricultural University, No.1 Nongda Road, Furong District, Changsha 410125, China
    Department of Entomology, University of Kentucky, S-225 Agricultural Science Center North, Lexington, KY 40546-0091, USA)

  • Austin Merchant

    (Department of Entomology, University of Kentucky, S-225 Agricultural Science Center North, Lexington, KY 40546-0091, USA)

  • Xuguo Zhou

    (Department of Entomology, University of Kentucky, S-225 Agricultural Science Center North, Lexington, KY 40546-0091, USA)

Abstract

Biochar loading mixed–phase iron oxide shows great advantages as a promising catalyst owing to its eco–friendliness and low cost. Here, γ–Fe 2 O 3−x @biochar (E/Fe–N–BC) composite was successfully prepared by the sol–gel method combined with low–temperature (280 °C) reduction. The Scanning Electron Microscope (SEM) result indicated that γ–Fe 2 O 3−x particles with the size of approximately 200 nm were well–dispersed on the surface of biochar. The CO derived from biomass pyrolysis is the main reducing component for the generation of Fe (II). The high content of Fe (II) contributed to the excellent catalytic performance of E/Fe–N–BC for quinclorac (QNC) degradation in the presence of peroxymonosulfate (PMS). The removal efficiency of 10 mg/L of QNC was 100% within 30 min using 0.3 g/L γ–Fe 2 O 3−x @biochar catalyst and 0.8 mM PMS. The radical quenching experiments and electron paramagnetic resonance analysis confirmed that •OH and SO 4 • − were the main radicals during the degradation of QNC. The facile and easily mass–production of γ–Fe 2 O 3−x @biochar with high catalytic activity make it a promising catalyst to activate PMS for the removal of organic pollutants.

Suggested Citation

  • Mei-e Zhong & Gongsong Tong & Jingchun Sun & Nan Zhou & Chunxia Ding & Xiangying Liu & Austin Merchant & Xuguo Zhou, 2022. "Low-Temperature Reduction Synthesis of γ–Fe 2 O 3−x @biochar Catalysts and Their Combining with Peroxymonosulfate for Quinclorac Degradation," IJERPH, MDPI, vol. 19(24), pages 1-17, December.
    • Handle: RePEc:gam:jijerp:v:19:y:2022:i:24:p:16790-:d:1003178
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    1. Naylor, Rosamond, 1994. "Herbicide use in Asian rice production," World Development, Elsevier, vol. 22(1), pages 55-70, January.
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