Abstract
Thick anodic oxide film with high photocatalytic activity was prepared successfully in 1.5 kmol/m3 H2SO4−0.3 kmol/m3 H2O2 with 0.03—0.09 kmol/m3 H3PO4 in a one-pot process. Increasing H3PO4 concentration in the range of 0—0.3 kmol/m3 suppressed spark discharge, resulting in a higher anatase-to-rutile ratio and fewer lower-valent titanium oxides in the anodized films. The photocatalytically active films consisted of a mixture of anatase and rutile crystallites with a small amount of Ti3+ ions, and had very rough surface with a large number of pores with a diameter on the order of micrometers. The film prepared in the 1.5 kmol/m3 H2SO4−0.3 kmol/m3 H2O2−0.03 kmol/m3 H3PO4 dispersed with TiO2 nanoparticles was the most active photocatalytically among the films obtained, and exhibited antibacterial activity.
