5 research outputs found
Adsorption and Diffusion of Pt and Au on the Stoichiometric and Reduced TiO2 Rutile (110) Surfaces
A comparative first principles pseudopotential study of the adsorption and
migration profiles of single Pt and Au atoms on the stoichiometric and reduced
TiO2 rutile (110) surfaces is presented. Pt and Au behave similarly with
respect to (i) most favorable adsorption sites, which are found to be the
hollow and substitutional sites on the stoichiometric and reduced surfaces,
respectively, (ii) the large increase in their binding energy (by ~1.7 eV) when
the surface is reduced, and (iii) their low migration barrier near 0.15 eV on
the stoichiometric surface. Pt, on the other hand, binds more strongly (by ~2
eV) to both surfaces. On the stoichiometric surface, Pt migration pattern is
expected to be one-dimensional, which is primarily influenced by interactions
with O atoms. Au migration is expected to be two-dimensional, with Au-Ti
interactions playing a more important role. On the reduced surface, the
migration barrier for Pt diffusion is significantly larger compared to Au.Comment: 3 figures, 1 table, submitted to PR
Temperature‐dependent transmission extended electron energy‐loss fine structure of aluminum
Inelastic electron scattering experiments in a transmission electron microscope provide a probe of core electron excitations that have binding energies below 2 keV, and that are localized within submicron diameter sample volumes. Extended electron energy‐loss fine‐structure measurements which show the variation with temperature of the mean squared relative displacement of aluminum yield a localized measurement of the Debye temperature which is in excellent agreement with macroscopic measurements