Theoretical modeling of photocatalytic active species on illuminated TiO2

BELELLI PATRICIA GABRIELA; FERULLO, RICARDO MARIO; BRANDA, MARÍA MARTA; CASTELLANI, NORBERTO JORGE

APPLIED SURFACE SCIENCE

Elsevier

Año: 2007 vol. 254 p. 32 - 35

0169-4332

A theoretical study of the H2O and O2 adsorption on an illuminated TiO2 anatase surface is presented. The electronic structure and the spin distribution were examined by employing the DFT formalism and the BHandHLYP functional. The adsorbates geometries were fully ptimized, including the cluster relaxation. Our results show the dissociative adsorption of the H2O molecule on the photoactivated TiO2 (0 0 1) surface. This reaction produces one hydroxyl group with radical character (OH) and an unpaired electron localized in the 5c-Ti atom. In case of the O2 molecule, the non-dissociative chemisorption was obtained. This molecule shows one unpaired electron and a negative charge. In these sense, the adsorbed O2 acts as a superoxide species (O2). A theoretical study of the H2O and O2 adsorption on an illuminated TiO2 anatase surface is presented. The electronic structure and the spin distribution were examined by employing the DFT formalism and the BHandHLYP functional. The adsorbates geometries were fully ptimized, including the cluster relaxation. Our results show the dissociative adsorption of the H2O molecule on the photoactivated TiO2 (0 0 1) surface. This reaction produces one hydroxyl group with radical character (OH) and an unpaired electron localized in the 5c-Ti atom. In case of the O2 molecule, the non-dissociative chemisorption was obtained. This molecule shows one unpaired electron and a negative charge. In these sense, the adsorbed O2 acts as a superoxide species (O2).