Preparation of Rare Earth Lu-doped TiO2 Film by Sol-gel Method and Its Photocatalytic Degradation of Methyl Orange Under Natural Light

Abstract: TiO2 can effectively degrade organic pollutants under ultraviolet radiation. Due to the large band gap of TiO2, natural light is not suitable for catalysis, which reduces the applicability of TiO2 materials. To use the natural light source more effectively, the sol-gel preparation process of the rare earth element Lu-doped TiO2 thin film was studied. XRD experiment was used to analyze the crystal characteristics of Lu-doped TiO2 film. The light absorption of Lu-doped TiO2 film was measured by a dual-beam UV-vi… Show more

“…TiO 2 has important applications in the field of photocatalysis [1,2], especially through the modification of TiO 2 using element doping, which reduces its band gap and enhances its ability to degrade organic compounds [3]. Doping elements include metallic elements [4][5][6], non-metallic elements [7][8][9], as well as dual-element doping [10,11], among others. The photocatalytic performance of TiO 2 modified with these doping elements has been significantly improved.…”

Study of electronic and optical properties of As-doped TiO2 using first principles

“…TiO 2 has important applications in the field of photocatalysis [1,2], especially through the modification of TiO 2 using element doping, which reduces its band gap and enhances its ability to degrade organic compounds [3]. Doping elements include metallic elements [4][5][6], non-metallic elements [7][8][9], as well as dual-element doping [10,11], among others. The photocatalytic performance of TiO 2 modified with these doping elements has been significantly improved.…”

Study of electronic and optical properties of As-doped TiO2 using first principles

Photocatalytic and antibacterial activity of Yttrium doped TiO2 nanostructure

First-principle study on the optical properties of TiO2 doped with different Lu contents