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p-Arsanilic acid decontamination over a wide pH range using biochar-supported manganese ferrite material as an effective persulfate catalyst: Performances and mechanisms

Bin Yao, Xia Chen, Kun Zhou, Zirui Luo, Peipei Li, Zihui Yang, Yaoyu Zhou

2022Biochar40 citationsDOIOpen Access PDF

Abstract

Abstract Direct chemical oxidation and pure adsorption could not effectively remove p -Arsanilic acid ( p -ASA) and the released inorganic arsenic. Herein, one novel biochar supported MnFe 2 O 4 (MFB) was synthesized and adopted for p -ASA degradation and synchronous adsorption of the generated inorganic arsenic. The MFB/persulfate (PS) system could remain effective under a wide pH range (3.0–9.0), and the released arsenic could be removed simultaneously by MFB. Mechanism investigation revealed that the functional groups of MFB (i.e. O–C=O and C=O), Fe and Mn oxides on MFB all contributed to PS activation. O 2 ·− and 1 O 2 were the main reactive oxygen species (ROS) responsible for p -ASA degradation, and 1 O 2 was the predominant ROS. Besides, the MFB possessed superior reusability. Therefore, it is expected to develop a potential method for organic arsenic contaminants removal via an oxidation-adsorption process, and the results could also shed light on the better understanding of the PS activation mechanisms. Graphical Abstract

Topics & Concepts

PersulfateAdsorptionBiocharArsenicManganeseCatalysisChemistryDegradation (telecommunications)Nuclear chemistryMaterials scienceInorganic chemistryOrganic chemistryTelecommunicationsPyrolysisComputer scienceArsenic contamination and mitigationAdvanced oxidation water treatmentEnvironmental remediation with nanomaterials
p-Arsanilic acid decontamination over a wide pH range using biochar-supported manganese ferrite material as an effective persulfate catalyst: Performances and mechanisms | Litcius