Abstract

Spherical particles of porous silica were coated with titania by the sol–gel method starting from titanium isopropoxide. The silica samples used were of high and low surface area (about 250 and 19 m² g⁻¹, respectively). The coated particles were generally calcined in air at 500 °C for 2 h. X-Ray photoelectron spectroscopy (XPS) and Auger electron spectroscopy (AES) were used before and after erosion with Ar⁺ ions at 4 keV. Silica with a high surface area was partially coated with a thin (below 1 nm) TiO₂ layer, whereas the low surface area silica resulted in a better coating. In this case, XPS and AES, in combination with silica and titanium chemical analysis, suggest that the particles were coated with nearly one monolayer of titania. High surface area samples exhibited a small decrease of BET area after deposition of the titanium dioxide, whereas no significant change of BET area was observed in low surface area silica. Porosity analysis showed, in both cases, a minor decrease of micropore volume and area after the coating process. This suggests that titania oligomers contained in the titania precursor sol do not penetrate significantly into the micropores and therefore the pore plugging process is a rather limited one. X-Ray diffraction showed that the titania layer is amorphous but begins to crystallize in the anatase form after about 6 h at 700 °C in those samples with the larger TiO₂ content.