Journal
SURFACE SCIENCE
Volume 540, Issue 2-3, Pages 157-171Publisher
ELSEVIER
DOI: 10.1016/S0039-6028(03)00824-0
Keywords
low-energy electron microscopy (LEEM); surface structure, morphology, roughness, and topography; surface thermodynamics (including phase transitions); titanium oxide; single crystal surfaces
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We use low-energy electron microscopy to image the reversible transformation of the TiO2(1 1 0) surface between a high-temperature 1 x 1 structure and a low-temperature 1 x 2 structure. The reconstruction dynamics are novel: 1 x 2 bands nucleated during cooling at the steps of the starting 1 x 1 surface and then grew laterally from the steps. The transformation kinetics are dominated by mass flow from the surface to the bulk, a process that facilitates converting the high-density 1 x 1 phase to the lower-density 1 x 2 phase. We have also imaged how the 1 x 1 surface reconstructs to 1 x 2 phase after sufficient oxygen is removed from the crystal's bulk during vacuum annealing. 1 x 2 bands also nucleated and grew laterally from the initial 1 x 1 -surface's steps. However, because this isothermal 1 x 1 -to- 1 x 2 transition occurs largely by mass redistribution on the surface, the steps of the initial 1 x 1 surface and final 1 x 2 surface are offset. We propose models of mass redistribution during the 1 x 1/1 x 2 phase transition to explain this effect. We conclude that the phase transition is first-order because it always occurred by the nucleation and growth of discrete phases. Finally, we show that quenching can roughen TiO2'S surface by forming pits and that changing temperature causes step motion on 1 x 2 surfaces. (C) 2003 Elsevier B.V. All rights reserved.
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