Adsorption-reduction of Fe(III) by different biochars and their co-activation of H2O2 for oxidation of refractory pollutants

Adsorption-reduction of Fe(III) by different biochars and their co-activation of H2O2 for oxidation of refractory pollutants

Various biochar samples were used for exploring the Fe(III)/biochar interactions and transformation of reactive oxygen species during co-activation of H2O2. The enhanced •OH production is positively related to the biochars' capacity of reducing Fe(III) into Fe(II), which is then linked with the...

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Bibliographic Details
Main Authors: Mengna Lai, Jianfa Li, Huiming Li, Yao Gui, Jinhong Lü
Format: Article
Language:English
Published: Elsevier 2023-03-01
Series:Catalysis Communications
Subjects:
Biochar
Dissolved iron
Fenton reaction
Fe(III)/Fe(II) cycle
Reactive oxygen species
Online Access:http://www.sciencedirect.com/science/article/pii/S1566736723000286
Description
Summary:Various biochar samples were used for exploring the Fe(III)/biochar interactions and transformation of reactive oxygen species during co-activation of H2O2. The enhanced •OH production is positively related to the biochars' capacity of reducing Fe(III) into Fe(II), which is then linked with their redox-active moieties and adsorption of Fe(III). Besides the •OH produced sustainably from Fenton reaction between H2O2 and regenerated Fe(II), a novel route involving dissolved O2 is proposed to enhance •OH production in the co-activated system. Consequently, faster and more efficient oxidation of refractory pollutants was achieved by co-activation of H2O2 with Fe(III) and biochar together.
ISSN:1873-3905

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