Theoretical study of CO and H2O interaction on (110) and (101) Zirconia surfaces

Theoretical calculations of CO and H2O adsorption on (110) and (101) tetragonal Zirconia surfaces were carried out using ONIOM2 methodology. The calculations showed that the adsorption processes are exothermic reactions with energy values of −28.4 kcal/mol for H2O on the (110) surface, −51.0 kcal/mol for H2O on the (101) surface, −21.7 kcal/mol for CO on (110) surface and −23.4 kcal/mol for CO on (101) surface. Analysis of the results suggest that different kinds of basic sites can be found on the (110) and (101) surfaces. In both (110) and (101) surfaces, CO adsorption is on bridged (bonded to two Zr atoms on the (110) surface, bonded to one Zr and O atoms on the (101) surface). The calculations showed that ONIOM can be a powerful tool to study structural and thermodynamics properties of solid surfaces.