TiO₂/Sepiolite nanocomposites doped with rare earth ions: Preparation, characterization and visible light photocatalytic activity

Several rare earth (RE)-doped TiO₂/Sepiolite (RE-TiO₂/Sep) photocatalysts were prepared via microwave-hydrothermal treatment using six different types of RE ions: La, Ce, Pr, Nd, Eu or Gd. The obtained nanocomposites were characterized by using BET, XPS, PL and UV-vis techniques. The results revealed that the structures and chemical properties of the nanocomposites were significantly dependent on the radius of the RE³⁺. Since the radius of RE³⁺ is much larger than that of Ti⁴⁺, Ti⁴⁺ could replace RE³⁺ in the lattice of RE₂O₃ in the form of Ti³⁺ state and create a charge imbalance due to their smaller ionic radii. Correspondingly, for charge balance, more OH⁻ will be adsorbed. The unoccupied 4f level of RE acts as a scavenger for photogenerated electrons, while surface adsorbed OH⁻ acts as a hole trap, separating the photogenerated electron-hole pairs effectively. Eu-TiO₂/Sep nanocomposite showed the best photocatalytic activity among all the RE-doped nanocomposites studied. The enhanced visible-light activity is mainly attributed to the enhanced separation of photoinduced carriers, low band gap energy, strong visible light absorption, high adsorption capacity and uniform distribution of titania nanoparticles on sepiolite as support.