Y. Ohko et al., Photoelectrochemical anticorrosion and self-cleaning effects of a TiO2 coating for type 304 stainless steel, J ELCHEM SO, 148(1), 2001, pp. B24-B28
We investigated the photoelectrochemical behavior of type 304 stainless ste
el (SUS 304) with TiO2 thin film coatings, applied by a spray pyrolysis tec
hnique, fur the purpose of cathodic photoprotection of the steel from corro
sion. The photopotential of TiO2-coated SUS 304, was -350 mV vs. Ag/AgCl in
an aerated aqueous solution containing 3 wt % NaCl (pH 7) under illuminati
on with 10 mW cm(-2) ultraviolet (UV) light, which was more negative than t
he corrosion potential of the bare steel (-100 mV). The photopotential did
not change in aqueous solutions containing from 0.01 to 5 wt % NaCl. No cor
rosion of TiO2-coated steel was observed at pH values greater than 3 in 3 w
t % NaCl aqueous solution under UV illumination. TiO2 films with coverages
greater than 30% achieved photoprotection ability at pH 6. When the UV ligh
t intensity was 3 mW cm(-2), that is, comparable with a typical daylight UV
intensity in Tokyo, the photopotential of TiO2-coated SUS 304 was -220 mV
in an aerated 3 wt % NaCl aqueous solution. In addition, the bleaching of m
ethylene blue dye was confirmed on TiO2-coated SUS 304 under 1 mW cm(-2) UV
illumination. pie conclude that TiO2 thin film-coated SUS 304 exhibits bot
h a cathodic photoprotection effect against corrosion and the previously re
ported photocatalytic self-cleaning effect. (C) 2000 The Electrochemical So
ciety. S0013-4651(00)06-050-X. All rights reserved.