TiO_2 (rutile and anatase) deposited on ordered mesoporous SiO_2: effect of pore size on photocatalytic activity

摘要

The aim of the study is to show how the pore size of mesoporous SiO2 host structures can affect the physical and photocatalytic properties of the impregnated host structure with TiO2 nanoparticles. The first phase of the investigation involved preparing mesoporous silica structures at two different hydrothermal temperatures (70 degrees C and 130 degrees C) which resulted in achieving different pore sizes in each sample. The synthesized samples were then impregnated with TiO2 nanoparticles (rutile and anatase) and finally heat treated at two different temperatures (400 degrees C and 800 degrees C). The prepared materials were characterized by X-ray diffraction, small-angle X-ray scattering, N-2 adsorption-desorption isotherm measurements, transmission electron microscopy and UV-Vis spectroscopy. After calcination of impregnated samples at a low temperature (400 degrees C), the sample with higher surface area (365 m(2)/g) showed a photoactivity half as big as the sample with lower surface area (329 m(2)/g). This phenomenon is due to the effect of pore size on localization of TiO2 nanoparticles (rutile and anatase) inside the pores and consequently on photocatalytic properties. In fact, since large rutile crystals can enter the channels of samples with large pores, coexistence of rutile and anatase crystals can lead to more photocatalytic efficiency. All of the samples indicated higher photoactivity with increased calcination temperature from 400 degrees C to 800 degrees C due to an increasing degree of crystallinity. Interestingly, the sample with larger pores retained a higher surface area and pore volume compared with the sample having smaller channels at elevated temperatures (800 degrees C) owing to the existence of open and accessible pores.