Degradation of tetracycline in aqueous solution by persulphate assisted gas‐liquid dielectric barrier discharge-Reference-Cited by-同舟云学术

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Degradation of tetracycline in aqueous solution by persulphate assisted gas‐liquid dielectric barrier discharge

Published:2021-02-21 Issue:3 Volume:35 Page:902-912
ISSN:1747-6585
Container-title:Water and Environment Journal
language:en
Short-container-title:Water and Environment Journal

Author:

Wu Haixia¹^ORCID,Fan Jiawei¹,Liu Feng²,Shu Lisha¹,Yin Baojian³

Affiliation:

1. College of Urban Construction Nanjing Tech University Nanjing China

2. School of Automation and Electrical Engineering Nanjing Tech University Nanjing China

3. Infrastructure Office of Shuyang County Education Bureau Suqian China

Funder

National Natural Science Foundation of China-Guangdong Joint Fund

Publisher

Wiley

Subject

Management, Monitoring, Policy and Law,Pollution,Water Science and Technology,Environmental Engineering

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/wej.12678

Reference71 articles.

1. Mechanistic insight into efficient removal of tetracycline from water by Fe/graphene

2. Assessment of bimetallic and trimetallic iron-based systems for persulfate activation: Application to sulfamethoxazole degradation

3. Treatment of 1,4-dioxane and trichloroethene co-contamination by an activated binary persulfate-peroxide oxidation process

4. Heat-activated persulfate oxidation of methyl- and ethyl-parabens: Effect, kinetics, and mechanism

5. Non-thermal plasma and Fe2+ activated persulfate ignited degradation of aqueous crystal violet: Degradation mechanism and artificial neural network modeling

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1. Degradation mechanism of atrazine in water by permutit loaded Fe and Cu oxides in a multi-electrode dielectric barrier discharge reactor;Journal of Environmental Chemical Engineering;2024-10

2. Effects of solution chemistry on dielectric barrier atmospheric non-thermal plasma for operative degradation of antiretroviral drug nevirapine;Science of The Total Environment;2024-05

3. Efficient photocatalytic degradation of ciprofloxacin by doped Bi4O5I2 with Gd3+ as an electron trap: Gd3+ substitutes Bi3+ in the lattice;Journal of Physics and Chemistry of Solids;2024-05

4. Novel CQDs/BiOI Microspheres with Gradient Oxygen Vacancies for Efficient Photocatalytic Performance Boosting by the Synergism of Reactive Oxygen and Iodine Species;ChemistrySelect;2024-04-23

5. Dielectric Barrier Discharge Plasma Coupled with Catalysis for Organic Wastewater Treatment: A Review;Catalysts;2022-12-22

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