An adsorptive photo-Fenton-like removal of 1,2-benzisothiazolin-3-one by NH2-MIL-53(Fe) under simulated solar light

Peifu Sun; Xiao Zhang; Zhiren Guo; Xinyue Liu; Yuanming Lan; Dongxiang Zhang; Hansheng Li; Jinying Li; Helei Liu; Xiyan Xu

doi:10.1039/d3nj00771e

An adsorptive photo-Fenton-like removal of 1,2-benzisothiazolin-3-one by NH₂-MIL-53(Fe) under simulated solar light

Peifu Sun, Xiao Zhang, Zhiren Guo, Xinyue Liu, Yuanming Lan, Dongxiang Zhang, Hansheng Li, Jinying Li, Helei Liu^*, Xiyan Xu^*

^*此作品的通讯作者

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

The excessive discharge of isothiazolinone bacteriostatic agent-containing wastewater has posed serious threats to human health and environmental safety. As 1,2-benzisothiazolin-3-one (BIT) is one of the most commonly used isothiazolinones, its effective degradation is necessary and urgent. In the current study, a NH₂-MIL-53(Fe)-based adsorptive photo-Fenton-like system was constructed for efficiently adsorbing and photodegrading BIT under solar light. The equilibrium BIT adsorption capacity Q_e of NH₂-MIL-53(Fe) reached 1140.89 mg g⁻¹. The adsorptive photo-Fenton-like system has achieved more than 90% removal of BIT using NH₂-MIL-53(Fe) in the presence of H₂O₂ under solar light irradiation, and the band gap of NH₂-MIL-53(Fe) was calculated by UV-Vis analysis to be 2.10 eV. The influences of pH, dosage of photocatalysts and H₂O₂ were also assessed. It was found that H₂O₂ reduced the recombination of electron-hole pairs, and the radical quenching experiments and EPR testing result confirmed that h⁺, ˙OH and O₂˙⁻ played a crucial role in the photocatalytic process. This study supports the application of Fe-based MOF materials for simultaneous adsorption and the solar light photocatalytic degradation of BIT.

源语言	英语
页（从-至）	8334-8346
页数	13
期刊	New Journal of Chemistry
卷	47
期	17
DOI	https://doi.org/10.1039/d3nj00771e
出版状态	已出版 - 30 3月 2023

联合国可持续发展目标

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10.1039/d3nj00771e

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Sun, P., Zhang, X., Guo, Z., Liu, X., Lan, Y., Zhang, D., Li, H., Li, J., Liu, H., & Xu, X. (2023). An adsorptive photo-Fenton-like removal of 1,2-benzisothiazolin-3-one by NH₂-MIL-53(Fe) under simulated solar light. New Journal of Chemistry, 47(17), 8334-8346. https://doi.org/10.1039/d3nj00771e

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title = "An adsorptive photo-Fenton-like removal of 1,2-benzisothiazolin-3-one by NH2-MIL-53(Fe) under simulated solar light",

abstract = "The excessive discharge of isothiazolinone bacteriostatic agent-containing wastewater has posed serious threats to human health and environmental safety. As 1,2-benzisothiazolin-3-one (BIT) is one of the most commonly used isothiazolinones, its effective degradation is necessary and urgent. In the current study, a NH2-MIL-53(Fe)-based adsorptive photo-Fenton-like system was constructed for efficiently adsorbing and photodegrading BIT under solar light. The equilibrium BIT adsorption capacity Qe of NH2-MIL-53(Fe) reached 1140.89 mg g−1. The adsorptive photo-Fenton-like system has achieved more than 90% removal of BIT using NH2-MIL-53(Fe) in the presence of H2O2 under solar light irradiation, and the band gap of NH2-MIL-53(Fe) was calculated by UV-Vis analysis to be 2.10 eV. The influences of pH, dosage of photocatalysts and H2O2 were also assessed. It was found that H2O2 reduced the recombination of electron-hole pairs, and the radical quenching experiments and EPR testing result confirmed that h+, ˙OH and O2˙− played a crucial role in the photocatalytic process. This study supports the application of Fe-based MOF materials for simultaneous adsorption and the solar light photocatalytic degradation of BIT.",

author = "Peifu Sun and Xiao Zhang and Zhiren Guo and Xinyue Liu and Yuanming Lan and Dongxiang Zhang and Hansheng Li and Jinying Li and Helei Liu and Xiyan Xu",

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AU - Sun, Peifu

AU - Zhang, Xiao

AU - Guo, Zhiren

AU - Liu, Xinyue

AU - Lan, Yuanming

AU - Zhang, Dongxiang

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AU - Li, Jinying

AU - Liu, Helei

AU - Xu, Xiyan

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N2 - The excessive discharge of isothiazolinone bacteriostatic agent-containing wastewater has posed serious threats to human health and environmental safety. As 1,2-benzisothiazolin-3-one (BIT) is one of the most commonly used isothiazolinones, its effective degradation is necessary and urgent. In the current study, a NH2-MIL-53(Fe)-based adsorptive photo-Fenton-like system was constructed for efficiently adsorbing and photodegrading BIT under solar light. The equilibrium BIT adsorption capacity Qe of NH2-MIL-53(Fe) reached 1140.89 mg g−1. The adsorptive photo-Fenton-like system has achieved more than 90% removal of BIT using NH2-MIL-53(Fe) in the presence of H2O2 under solar light irradiation, and the band gap of NH2-MIL-53(Fe) was calculated by UV-Vis analysis to be 2.10 eV. The influences of pH, dosage of photocatalysts and H2O2 were also assessed. It was found that H2O2 reduced the recombination of electron-hole pairs, and the radical quenching experiments and EPR testing result confirmed that h+, ˙OH and O2˙− played a crucial role in the photocatalytic process. This study supports the application of Fe-based MOF materials for simultaneous adsorption and the solar light photocatalytic degradation of BIT.

AB - The excessive discharge of isothiazolinone bacteriostatic agent-containing wastewater has posed serious threats to human health and environmental safety. As 1,2-benzisothiazolin-3-one (BIT) is one of the most commonly used isothiazolinones, its effective degradation is necessary and urgent. In the current study, a NH2-MIL-53(Fe)-based adsorptive photo-Fenton-like system was constructed for efficiently adsorbing and photodegrading BIT under solar light. The equilibrium BIT adsorption capacity Qe of NH2-MIL-53(Fe) reached 1140.89 mg g−1. The adsorptive photo-Fenton-like system has achieved more than 90% removal of BIT using NH2-MIL-53(Fe) in the presence of H2O2 under solar light irradiation, and the band gap of NH2-MIL-53(Fe) was calculated by UV-Vis analysis to be 2.10 eV. The influences of pH, dosage of photocatalysts and H2O2 were also assessed. It was found that H2O2 reduced the recombination of electron-hole pairs, and the radical quenching experiments and EPR testing result confirmed that h+, ˙OH and O2˙− played a crucial role in the photocatalytic process. This study supports the application of Fe-based MOF materials for simultaneous adsorption and the solar light photocatalytic degradation of BIT.

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An adsorptive photo-Fenton-like removal of 1,2-benzisothiazolin-3-one by NH2-MIL-53(Fe) under simulated solar light

摘要

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引用此

An adsorptive photo-Fenton-like removal of 1,2-benzisothiazolin-3-one by NH₂-MIL-53(Fe) under simulated solar light