Synergy of rapid adsorption and photo-Fenton-like degradation in CoFe-MOF/TiO2/PVDF composite membrane for efficient removal of antibiotics from water
Author:
Publisher
Elsevier BV
Subject
Filtration and Separation,Analytical Chemistry
Reference69 articles.
1. An analysis of the relation between water pollution and economic growth in China by considering the contemporaneous correlation of water pollutants;Cai;J. Clean. Prod.,2020
2. Adsorptive decontamination of antibiotics from livestock wastewater by using alkaline-modified biochar;Zhao;Environ. Res.,2023
3. Fabrication of graphene oxide/polydopamine adsorptive membrane by stepwise in-situ growth for removal of rhodamine B from water;Wang;Desalination,2021
4. An amphiphilic flocculant with a lignin core for efficient separation of suspended solids;Wu;Sep. Purif. Technol.,2023
5. Facile fabrication of BiOIO3/MIL-88B heterostructured photocatalysts for removal of pollutants under visible light irradiation;Zhu;J. Colloid Interface Sci.,2022
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