Sulfadiazine degradation by hydroxyl radical and direct electron transfer pathways in the self-prepared boron doped diamond electrochemical process-Reference-Cited by-同舟云学术

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Sulfadiazine degradation by hydroxyl radical and direct electron transfer pathways in the self-prepared boron doped diamond electrochemical process

Published:2024-07 Issue: Volume:64 Page:105666
ISSN:2214-7144
Container-title:Journal of Water Process Engineering
language:en
Short-container-title:Journal of Water Process Engineering

Author:

Meng Lingwei,Zheng Ruibin,Cheng Renzhen,Li Juan,Li Honglan,Gao Mingchang,Sun Shaofang,Qiu Liping,Qiu Qi

Publisher

Elsevier BV

Reference62 articles.

1. Sulfonamides removed from simulated livestock and poultry breeding wastewater using an in-situ electro-Fenton process powered by photovoltaic energy;Zhang;Chem. Eng. J.,2020

2. Effect of antibiotic and/or heavy metal on nitrogen cycle of sediment-water interface in aquaculture system: implications from sea cucumber culture;Wang;Environ. Pollut.,2023

3. Antibiotics residues in pig slurry and manure and itsenvironmental contamination potential. A meta-analysis;Frey;Agron. Sustain. Dev.,2022

4. Sulfadiazine removal efficiency with persulfate driven by electron-rich Cu-beta zeolites;Song;Chemosphere,2023

5. Efficient elimination of sulfadiazine in an anaerobic denitrifying circumstance: biodegradation characteristics, biotoxicity removal and microbial community analysis;Zheng;Chemosphere,2020

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