Abstract
Efficient La-doped TiO2photocatalysts were prepared by sol-gel method and extensively characterized by various sophisticated techniques. The photocatalytic activity of La-doped TiO2was evaluated for the degradation of monocrotophos (MCPs) in aqueous solution. It showed higher rate of degradation than pure TiO2for the light of wavelength of 254 nm and 365 nm. The rate constant of TiO2increases with increasing La loading and exhibits maximum rate for 1% La loading. The photocatalytic activities of La-doped TiO2are compared with La-doped ZnO; the reaction rate of the former is ~1.8 and 1.1 orders higher than the latter for the lights of wavelength 254 nm and 365 nm, respectively. The relative photonic efficiency of La-doped TiO2is relatively higher than La-doped ZnO and commercial photocatalysts. Overall, La-doped TiO2is the most active photocatalyst and shows high relative photonic efficiencies and high photocatalytic activity for the degradation of MCP. The enhanced photocatalytic activity of La-doped TiO2is mainly due to the electron trapping by lanthanum metal ions, small particle size, large surface area, and high surface roughness of the photocatalysts.
Highlights
The remarkable progress of scientific technologies in recent years has made extremely high demands on semiconductor material
We mainly focus on the synthesis of La-doped TiO2, since the photocatalytic activity of TiO2 was greater than ZnO
The most serious among them are premature ageing, congenital abnormalities, and impotence [19]. It has been observed from the experimental results that Ladoped TiO2 showed an excellent photocatalytic activity and relative photonic efficiency compared to other photocatalysts
Summary
The remarkable progress of scientific technologies in recent years has made extremely high demands on semiconductor material. The studies of modifying TiO2 to reduce the electron-hole recombination and sensitization towards visible light have been extensively investigated. Metal ion doping has been widely performed on semiconductors to minimize electron/hole recombination and enhance their absorption towards visible light region [5,6,7,8]. Photocatalytic activity of TiO2, La-doped TiO2, and other photocatalysts have evaluated by the degradation of MCP in aqueous solution. The most serious among them are premature ageing, congenital abnormalities, and impotence [19] It has been observed from the experimental results that Ladoped TiO2 showed an excellent photocatalytic activity and relative photonic efficiency compared to other photocatalysts. Electron trapping by lanthanum metal ions, smaller particle size, large surface area, high porosity, and increase in surface roughness may be the reasons for the enhanced photocatalytic activity
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