Issue 25, 2024, Issue in Progress

Enhancing photocatalytic tetracycline degradation through the fabrication of high surface area CeO2 from a cerium–organic framework

Abstract

Water pollution is a global environmental issue, and the presence of pharmaceutical compounds, such as tetracyclines (TCs), in aquatic ecosystems has raised growing concerns due to the potential risks to both the environment and human health. A high surface area CeO2 was prepared via atmospheric thermal treatment of a metal–organic framework of cerium and benzene-1,3,5-tricarboxylate. The effects of calcination temperature on the morphology, structure, light absorption properties and tetracycline removal efficiency were studied. The best activity of the photocatalysts could be achieved when the heat treatment temperature is 300 °C, which enhances the photocatalytic degradation performance towards tetracycline under visible light. The resulting CeO2 particles have high capacity for adsorbing TCs from aqueous solution: 90 mg g−1 for 60 mg L−1 TCs. As a result, 98% of the initial TC can be removed under simulated sunlight irradiation. The cooperation of moderate defect concentration and disordered structure showed tetracycline removal activity about 10 times higher than the initial Ce-MOF. An embryotoxicity assessment on zebrafish revealed that treatment with CeO2 particles significantly decreased the toxicity of TC solutions.

Graphical abstract: Enhancing photocatalytic tetracycline degradation through the fabrication of high surface area CeO2 from a cerium–organic framework

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Article information

Article type
Paper
Submitted
08 Apr 2024
Accepted
16 May 2024
First published
30 May 2024
This article is Open Access
Creative Commons BY license

RSC Adv., 2024,14, 17507-17518

Enhancing photocatalytic tetracycline degradation through the fabrication of high surface area CeO2 from a cerium–organic framework

A. R. Borges Serra, G. Castro de Sousa, V. de Carvalho Gomes, I. Alves de Sousa Filho, C. K. Grisolia, B. Zhao, R. I. Walton and O. A. Serra, RSC Adv., 2024, 14, 17507 DOI: 10.1039/D4RA02640C

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