Influence of the Bulk Growth Direction on TiO₂ and SnO₂ Surface Energies

Title:Influence of the Bulk Growth Direction on TiO₂ and SnO₂ Surface Energies

Volume: 4 Issue: 1

Author(s): Sergio R. De Lazaro, Renato F. Penteado, Daniella Ingles and Sergio M. Tebcherani

Affiliation:

Keywords: Ceramic, crystal, DFT, growth direction, rutile, simulation, SnO₂, solid state, structure, supercell, surface energy, theoretical, TiO₂.

Abstract: TiO₂ and SnO₂ have the (P4₂/mnm) rutile structure with close lattice parameters and are extensively used in technological applications due to catalytic and optical properties. These properties can dependend on the surface directions and surface energy. It is of interest to estimate which directions are appropriate or energetically more favorable. Mathematical expressions often used in the literature to estimate the surface energy in oxides are based on a direct relationship between surface and bulk energies. However, for other workers the solid growth direction is represented only in the surface energy term (E_surf), whereas the bulk energy factor (E_bulk) has no influence of the solid growth direction. The latter term (E_bulk) is important for surface growth direction of a solid because both surface and bulk can grow in the same direction. This objective of our work is to investigate the influence of the bulk energy term (E_bulk), traditionally used in the literature, as well as the supercell energy term (E_supercell) representing the influence of the bulk growth direction on the surface energy of the solid.

Cite this article as:

Lazaro R. De Sergio, Penteado F. Renato, Ingles Daniella and Tebcherani M. Sergio, Influence of the Bulk Growth Direction on TiO₂ and SnO₂ Surface Energies, Current Physical Chemistry 2014; 4 (1) . https://dx.doi.org/10.2174/18779468113036660029