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1. Enhanced Antibacterial Property of Facet-Engineered TiO2 Nanosheet in Presence and Absence of Ultraviolet Irradiation

Author

Hiroyuki Miura, Reina Nemoto, Satoshi Ohara, Keiji Itaka, Kosuke Nozaki, Zhenquan Tan, Kimihiro Yamashita, Kazuhisa Fujita, and Kenichiro Hayashi

Subjects

photocatalytic activity, viruses, Radical, facet engineering, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, Photochemistry, lcsh:Technology, 01 natural sciences, Article, antibacterial activity, Ultraviolet light, TiO2, General Materials Science, Irradiation, lcsh:Microscopy, lcsh:QC120-168.85, Nanosheet, chemistry.chemical_classification, Reactive oxygen species, lcsh:QH201-278.5, lcsh:T, Chemistry, technology, industry, and agriculture, virus diseases, biochemical phenomena, metabolism, and nutrition, 021001 nanoscience & nanotechnology, 0104 chemical sciences, lcsh:TA1-2040, Photocatalysis, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:Engineering (General). Civil engineering (General), 0210 nano-technology, Antibacterial activity, lcsh:TK1-9971, Titanium

Abstract

Titania (TiO2) has attracted much attention recently for reducing bacterial diseases by the generation of reactive oxygen species (ROS) under UV irradiation. However, demand for higher photocatalytic activity due to higher recombination of electron and hole remains. The aims of this study were to make titania with higher antibacterial property and show the mechanisms of the bactericidal effect. In this study, we hydrothermally synthesized TiO2 nanosheets (NS) with highly-oriented structures. Samples were divided into five groups, depending on the fluorine/titanium ratio in the raw material, namely NS1.0, NS1.2, NS1.5, NS1.8, and NS2.0. Facet ratio and nanosheet size increased with an increase of fluorine/titanium ratio. The photocatalytic activity of TiO2 nanosheet was assessed by the generation of ROS. Hydroxyl radicals and superoxides were generated efficiently by ultraviolet light irradiation on NS1.5 and NS1.0, respectively. Antibacterial activity against Streptococcus mutans was assessed in the presence and absence of UV irradiation, NS1.0 showed superior antibacterial properties compared to commercially available TiO2 nanoparticles, under both conditions, due to the oxidation of intracellular components and cell membrane. These results together suggested TiO2 nanosheet induced bacterial cell death by oxidation, and TiO2 facet engineering resulted in enhancement of both photocatalytic and antibacterial activities of TiO2.

Published

2019