4.5 Article

Reduced graphene oxide/TiO2/NiFe2O4 nanocomposite as a stable photocatalyst and strong antibacterial agent

期刊

SUSTAINABLE ENVIRONMENT RESEARCH
卷 33, 期 1, 页码 -

出版社

BMC
DOI: 10.1186/s42834-023-00200-y

关键词

rGo/TiO2/NiFe2O4 nanocomposite; Methylene blue; Photocatalytic degradation; Antibacterial agent

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This study investigates the synthesis and characterization of reduced graphene oxide/titanium dioxide/nickel ferrite nanocomposites and evaluates their photocatalytic and antibacterial activity. The GTN211 nanocomposite with a mass ratio of 2:1:1 for rGO:TiO2:NiFe2O4 demonstrates the best photocatalytic performance and antibacterial activity, making it a promising material for environmental remediation and biomedical applications. The study also reveals the main active species in the photodegradation process.
In this study, we prepared reduced graphene oxide (rGO)/titanium dioxide (TiO2)/nickel ferrite (NiFe2O4) nanocomposites with different mass ratios of rGO, TiO2, and NiFe2O4 by a simple hydrothermal method. These nanocomposites were found to exhibit enhanced visible light harvesting, reduced electron-hole recombination, and improved magnetic properties compared to rGO, TiO2, and NiFe2O4. The study evaluated the photocatalytic and antibacterial activity of the nanocomposites, with particular emphasis on the GTN211 (with a mass ratio of 2:1:1 for rGO:TiO2:NiFe2O4) nanocomposite. The results showed that the GTN211 nanocomposite exhibited the best photocatalytic performance under both UV and visible light irradiation, achieving 95 and 89% degradation of Methylene Blue dye in 15 min, respectively. The study also investigated the photodegradation mechanism using various scavengers and found that holes were the main active species in the process. In addition to photocatalytic activity, the GTN211 nanocomposite also showed good antibacterial activity against Escherichia coli and Staphylococcus aureus bacteria, with the minimum inhibitory concentration of 1 mg mL(-1) for both bacteria and a minimum bactericidal concentration of 0.8 and 1 mg mL(-1), respectively. Hence, the GTN211 nanocomposite has potential as a material for environmental remediation and biomedical applications. The combination of photocatalytic and antibacterial activity makes this material a promising candidate for a wide range of applications.

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