2D TiO2 Nanosheets Decorated Via Sphere‐Like BiVO4: A Promising Non‐Toxic Material for Liquid Phase Photocatalysis and Bacterial Eradication

2D TiO2 Nanosheets Decorated Via Sphere‐Like BiVO4: A Promising Non‐Toxic Material for Liquid Phase Photocatalysis and Bacterial Eradication

An in‐depth investigation was conducted on a promising composite material (BiVO4/TiO2), focusing on its potential toxicity, photoinduced catalytic properties, as well as its antibiofilm and antimicrobial functionalities. The preparation process involved the synthesis of 2D TiO2 using the lyophilizat...

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Bibliographic Details
Published in:ChemSusChem Vol. 17; no. 17; pp. e202400027 - n/a
Main Authors: Hanif, Muhammad Bilal, Bacova, Jana, Berezenko, Viktoriia, Zeng, Yilan, Paluch, Emil, Seniuk, Alicja, Khan, Muhammad Zubair, Rauf, Sajid, Hussain, Iftikhar, Motlochova, Monika, Plesch, Gustav, Monfort, Olivier, Capek, Jan, Dworniczek, Ewa, Rousar, Tomas, Motola, Martin
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 09-09-2024
Subjects:
2D TiO2
antibiofilm
antimicrobial
Bacteria
Bismuth oxides
Chemical synthesis
Composite materials
cytotoxicity
E coli
Glutathione
Heterojunctions
Human performance
Hydroxyl radicals
Liquid phases
Microorganisms
Performance degradation
Performance evaluation
Photocatalysis
Photodegradation
Rhodamine
sphere-like BiVO4
Titanium dioxide
Toxicity
Vanadates
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Summary:An in‐depth investigation was conducted on a promising composite material (BiVO4/TiO2), focusing on its potential toxicity, photoinduced catalytic properties, as well as its antibiofilm and antimicrobial functionalities. The preparation process involved the synthesis of 2D TiO2 using the lyophilization method, which was subsequently functionalized with sphere‐like BiVO4 through wet impregnation. Finally, we developed BiVO4/TiO2 S‐scheme heterojunctions which can greatly promote the separation of electron‐hole pairs to achieve high photocatalytic performance. The evaluation of concentration‐ and time‐dependent viability inhibition was performed on human lung carcinoma epithelial A549 cells. This assessment included the estimation of glutathione levels and mitochondrial dehydrogenase activity. Significantly, the BiVO4/TiO2 composite demonstrated minimal toxicity towards A549 cells. Impressively, the BiVO4/TiO2 composite exhibited notable photocatalytic performance in the degradation of rhodamine B (k=0.135 min−1) and phenol (k=0.016 min−1). In terms of photoinduced antimicrobial performance, the composite effectively inactivated both gram‐negative E. coli and gram‐positive E. faecalis bacteria upon 60 minutes of UV‐A light exposure, resulting in a significant log 6 (log 10 CFU/mL) reduction in bacterial count. In addition, a 49 % reduction of E. faecalis biofilm was observed. These promising results can be attributed to the unique 2D morphology of TiO2 modified by sphere‐like BiVO4, leading to an increased generation of (intracellular) hydroxyl radicals, which plays a crucial role in the treatments of both organic pollutants and bacteria. This research has significant potential for various applications, particularly in addressing environmental contamination and microbial infections. Two‐dimensional TiO2 nanosheets, functionalized with spherical BiVO4, demonstrate superior photocatalytic efficiency in degradation of organic pollutants and significant antibacterial properties. The composite exhibits minimal toxicity to human lung carcinoma cells (A549), indicating its suitability for nontoxic environmental remediation and antimicrobial applications.
Bibliography:Equal contribution.
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ISSN:1864-5631
1864-564X
1864-564X
DOI:10.1002/cssc.202400027