Lek Sikong, Kalayanee Kooptarnond, Sutham Niyomwas, and Jiraporn Damchan

pp. 413 - 412

Abstract

SiO₂
 and SnO₂
 co-doped TiO₂
 nano-composite thin films were prepared by sol-gel method. The effects of film thickness
and amount of SiO₂
 and SnO₂
 co-doping into TiO₂
 nano-composite films on phase presence, crystallite size, photocatalytic
reaction and hydrophilicity were investigated. Thickness of 3-coating layers (238 nm) seems to provide the highest photocatalytic activity. The crystallinity of anatase phases, crystallite sizes and photocatalytic reactions of SiO₂
 and SnO₂
 co-doped
TiO₂ films decrease with an increase in SiO₂ content. It was found that more amount of SiO₂
 addition seems to inhibit grain
growth and the formation of anatase phase; especially when it was synthesized at temperature less than 600°C. The photocatalytic reaction seems to decrease with an increase in SiO₂
 doping when the concentrations of SnO₂
 in the composite films
are fixed. It was apparent that 1SiO₂
/1SnO₂
/TiO₂
 composite film exhibits the highest photoactivity. Suitable amounts of SiO₂
and SnO₂
 doping into the TiO₂
 composite films tend to enhance the hydrophilic property of the films. It was also apparent
that the 3SiO₂
/3SnO₂
/TiO₂
, 5SiO₂
/5SnO₂
/TiO₂
 and 10SiO₂
/3SnO₂
/TiO₂
 composite films exhibit super hydrophilic characteristics
under UV irradiation for 30 min.