Suppressing the Photocatalytic Activity of Titania by Precisely Controlled Silica Coating

A homogeneous thin silica layer with the thickness of a few nanometers was successfully deposited on an anatase particle by the hydrolysis and condensation of tetraethyl orthosilicate. The heat treatment of the titania/silica hybrid at 1000 degrees C led to the densification of the silica layer on the anatase particles. The anatase particle after the silica coating did not transform to rutile, and no change in the crystallite size was seen by the heat treatment at 1000 degrees C. The coating and subsequent heating were repeated to vary the thickness of the silica layer to obtain each coating with similar thickness by each coating procedure (ca. 3 and 2 nm, before and after the heat treatment). The samples were evaluated for the photocatalytic decomposition of methylene blue by the UV irradiation to find that the decomposition became slower after the coating and subsequent heat treatment, and the repeated procedures led to further suppression of the photocatalytic decomposition of methylene blue. The quite small decomposition rate constant (0.01 h(-1)) was successfully achieved by the coating and subsequent heating for three times (the thickness of the dense silica layer was ca. 7 nm).

Automated summary

A thin and homogeneous silica layer was successfully deposited on anatase particles through hydrolysis and condensation, leading to densification after heat treatment. Repeated coating and heating procedures were found to slow down the photocatalytic decomposition of methylene blue, with a significantly reduced decomposition rate constant achieved after three times of coating and heating.