Microwave-assisted synthesis of RuTe2/black TiO2 photocatalyst for enhanced diclofenac degradation: Performance, mechanistic investigation and intermediates analysis
Author:
Publisher
Elsevier BV
Subject
Filtration and Separation,Analytical Chemistry
Reference60 articles.
1. Fabrication of vessel-like biochar-based heterojunction photocatalyst Bi2S3/BiOBr/BC for diclofenac removal under visible LED light irradiation: Mechanistic investigation and intermediates analysis;Li;J. Hazard Mater,2020
2. UV/H2O2 degradation of diclofenac in a photocatalytic fuel cell;Dhawle;Appl. Catal. B-Environ.,2021
3. Boron-doped nitrogen-deficient carbon nitride-based Z-scheme heterostructures for photocatalytic overall water splitting;Zhao;Nat. Energy.,2021
4. Magnetic Ti3C2Tx (Mxene) for diclofenac degradation via the ultraviolet/chlorine advanced oxidation process;Jang;Environ. Res.,2020
5. Advancing photoreforming of organics: highlights on photocatalyst and system designs for selective oxidation reactions;Toe;Energy Environ. Sci.,2021
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