Selective Removal of Phenolic Compounds by Peroxydisulfate Activation: Inherent Role of Hydrophobicity and Interface ROS

Liu Xinru; Liu Ying; Qin HeheYe ZiweiWei XiaojieMiao WeiYang DianhaiMao Shun

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Selective Removal of Phenolic Compounds by Peroxydisulfate Activation: Inherent Role of Hydrophobicity and Interface ROS

机译：Selective Removal of Phenolic Compounds by Peroxydisulfate Activation: Inherent Role of Hydrophobicity and Interface ROS

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Selective removal of organic pollutants by advanced oxidation methods has been receiving increasing attention for environmental remediation. In this study, a novel catalyst, which can selectively oxidize phenolic compounds (PCs) based on their hydrophobicity, composed of metal-organic-framework-derived Fe/Fe3O4 and three-dimensional reduced graphene oxide (rGOF) is designed for peroxydisulfate (PDS) activation. This heterogeneous PDS activation system can completely degrade hydrophobic PCs within 30 min. By investigating the hydrophobic properties of eight representative PCs, a positive correlation between the hydrophobicity of PC and the reaction kinetics is reported for the first time. The selective removal stems from the strong interaction between highly hydrophobic PCs and the catalyst. Moreover, the mechanism investigation shows that the degradation reaction is triggered by interface reactive oxygen species (ROS). Our study reveals that the selective degradation of organic pollutants by PDS activation depends on the hydrophilic and hydrophobic properties of the pollutant and catalyst. The reported results provide new insights into a highly selective and efficient PDS activation system for organic pollutant removal.

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来源
《Environmental Science & Technology: ES&T》 |2022年第4期|2665-2676|共12页
作者
Liu Xinru; Liu Ying; Qin HeheYe ZiweiWei XiaojieMiao WeiYang DianhaiMao Shun;
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作者单位

Tongji Univ;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种英语
中图分类环境科学、安全科学;
关键词
selective oxidation; phenolic compounds; hydrophobicity; adsorption; interface reactive oxygen species; METAL-ORGANIC FRAMEWORK; REDUCED GRAPHENE OXIDE; ZERO-VALENT IRON; BISPHENOL-A; DEGRADATION; ADSORPTION; CATALYST; PERSULFATE; NANOPARTICLES; CONTAMINANTS;

Selective Removal of Phenolic Compounds by Peroxydisulfate Activation: Inherent Role of Hydrophobicity and Interface ROS

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