Bandgap engineering of carbon nitride by formic acid assisted thermal treatment for photocatalytic degradation of tetracycline hydrochloride-Reference-Cited by-同舟云学术

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Bandgap engineering of carbon nitride by formic acid assisted thermal treatment for photocatalytic degradation of tetracycline hydrochloride

Published:2024-04 Issue: Volume:485 Page:149830
ISSN:1385-8947
Container-title:Chemical Engineering Journal
language:en
Short-container-title:Chemical Engineering Journal

Author:

Zhou Yu,Jiang Danni,Wang Zhiwei,Yi Lidong,Sun Jiaxin,Liu Dingli,Yu Xiaoxue,Chen Yonghua

Publisher

Elsevier BV

Reference65 articles.

1. Novel intramolecular-tailored g-C3N4 with accelerated charge delivery for photocatalytic tetracycline degradation and hydrogen production: experimental studies and theoretical analyses[J];Wang;Journal of Materials Chemistry C,2023

2. Remediation of tetracycline pollution using MXene and nano-zero-valent iron materials: a review[J];Rameshwar;Environmental Chemistry Letters,2023

3. Residues and health risk assessment of typical antibiotics in aquatic products from the Dongting Lake, China-“Did you eat “Antibiotics” today?”[J];Liu;Environmental Science and Pollution Research,2018

4. Evolution of Helicobacter pylori resistance to antibiotics: a topic of increasing concern[J];Boyanova;Antibiotics,2023

5. The impact of tetracycline pollution on the aquatic environment and removal strategies[J];Amangelsin;Antibiotics,2023

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1. Construction of black g-C3N4/loofah/chitosan hydrogel as an efficient solar evaporator for desalination coupled with antibiotic degradation;Separation and Purification Technology;2025-03

2. Polychloride and benzene ring synergistically boosting photocatalytic degradation and nitrogen fixation performances of carbon nitride;Separation and Purification Technology;2025-02

3. High molecular oxygen activation capacity of carbon defective g-C3N5 for photocatalytic degradation of antibiotics in water;Separation and Purification Technology;2025-02

4. Nitrogen vacancy-modified g-C3N4 nanosheets controlled by deep eutectic solvents for highly efficient photocatalytic atrazine degradation: Non-radical dominated holes oxidation;Separation and Purification Technology;2025-02

5. New strategy for enhancing the photocatalytic degradation of sulfadiazine by polymerized carbon nitride: Modulation of short-lived radicals to long-lifetime reactive species;Applied Catalysis B: Environment and Energy;2024-11

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