PNNL

Abstract

We have investigated the relationship between different types and amounts of bulk defects and the surface morphology of TiO2(110) single crystals prepared by annealing in ultrahigh vacuum and in oxygen. Rutile TiO2(110) specimens were cut from the same crystal, and were heated in a furnace to different temperatures which resulted in different states of reduction (colors of the crystals). After characterization of the bulk defects with electron paramagnetic resonance (EPR) the specimens were studied with scanning tunneling microscopy (STM), low-energy He? ion scattering (LEIS) and work function measurements. EPR reveals that darker rutile crystals exhibit higher concentrations of extended Ti3? related bulk defects such as crystallographic shear planes (CSP), with a decrease in substitutional and interstitial defects as compared to lighter crystals. Surface structures with (1x2) features are preferably formed upon UHV annealing on these darker crystals. LEIS measurements show that all the crystals' (110) surfaces are reoxidized upon annealing in 18 O2 (573 K, 1x10 -6 mbar, 10 min) and that the 18O surface content is proportional to bulk reduction state. UV-Visable adsorption spectra and resistivity measurements also scale with the reduction states of crystals. Only the (1x1) structure is observed on the surface of slightly reduced crystals. Annealing in oxygen induces additional metastable structures, i.e., TiO2 clusters on blue crystals and rosette networks on dark blue crystals.