Composite TiO2 films modified by CeO2 and SiO2 for the photocatalytic removal of water pollutants

Abstract

TiO₂ particles of high photocatalytic activity immobilised on various substrates usually suffer from low mechanical stability. This can be overcome by the utilisation of an inorganic binder and/or incorporation in a robust hydrophobic matrix based on rare-earth metal oxides (REOs). Furthermore, intrinsic hydrophobicity of REOs may result in an increased affinity of TiO₂-REOs composites to non-polar aqueous pollutants. Therefore, in the present work, three methods were used for the fabrication of composite TiO₂/CeO₂ films for photocatalytic removal of dye Acid Orange 7 and the herbicide monuron, as representing polar and non-polar pollutants, respectively. In the first method, the composition of a paste containing photoactive TiO₂ particles and CeCl₃ or Ce(NO₃)₃ as CeO₂ precursors was optimised. This paste was deposited on glass by doctor blading. The second method consisted of the deposition of thin layers of CeO₂ by spray coating over a particulate TiO₂ photocatalyst layer (prepared by drop casting or electrophoresis). Both approaches lead to composite films of similar photoactivity that of the pure TiO₂ layer, nevertheless films made by the first approach revealed better mechanical stability. The third method comprised of modifying a particulate TiO₂ film by an overlayer based on colloidal SiO₂ and tetraethoxysilane serving as binders, TiO₂ particles and cerium oxide precursors at varying concentrations. It was found that such an overlayer significantly improved the mechanical properties of the resulting coating. The use of cerium acetylacetonate as a CeO₂ precursor showed only a small increase in photocatalytic activity. On the other hand, deposition of SiO₂/TiO₂ dispersions containing CeO₂ nanoparticles resulted in significant improvement in the rate of photocatalytic removal of the herbicide monuron.

Keywords: Acid Orange 7; CeO2; Monuron; Photocatalysis; SiO2; TiO2; Water treatment.