The impact of ultraviolet light on bacterial adhesion to glass and metal oxide-coated surface

Abstract

Biofouling of glass and quartz surfaces can be reduced when the surface is coated with photocatalytically active metal oxides, such as TiO 2 (anatase form) or SnO 2. We measured the attachment of eight strains of bacteria to these two metal oxides (TiO 2 and SnO 2), and to an uncoated glass (control; designated Si-m) before and after exposure to UV light at wavelengths of 254 nm (UVC) or 340 nm UV (UVA). TiO 2-coated surfaces were photocatalytically active at both 254 and 340 nm as evidenced by a decrease in the water contact angle of the surface from 59° ± 2 to <5°. The water contact angle of the SnO 2 surface was reduced only at 254 nm, while contact angle of the Si-m glass surface was not altered by light of either wavelength. Bacterial adhesion decreased by 10–50% to photocatalyzed glass surfaces. In all cases, bacteria exposed to the UV light were completely killed due to a combination of exposure to UV light and the photocatalytic activity of the glass surfaces. These results show that UV light irradiation of TiO 2-coated surfaces can be an effective method of reducing bacterial adhesion.