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O: Fachverband Oberflächenphysik

O 32: Oxides and Insulators: Clean Surfaces

O 32.10: Vortrag

Dienstag, 26. Februar 2008, 15:15–15:30, MA 042

Metal-insulator transition on the V₂O₅(001) surface: Theory and experiment — •Maria Veronica Ganduglia-Pirovano¹, Remy Fortrie¹, Joachim Sauer¹, Ralf-Peter Blum², Horst Niehus², Carsten Hucho³, Shamil Shaikhutdinov⁴, and Hans-Joachim Freund⁴ — ¹Inst. für Chemie, HU-Berlin — ²Inst. für Physik, HU-Berlin — ³Paul-Drude-Institut Berlin — ⁴FHI Berlin

Several vanadium oxides undergo a metal-to-insulator transition (MIT) in the bulk, e.g., V₂O₃ at ∼150 K, VO₂ at 340 K, whereas V₂O₅ is a semiconductor. Experimental evidence for a thermally induced surface insulator-metal transition (MIT) at the V₂O₅(001) surface at 350-400 K is presented. This surface exposes vanadyl (V=O) double rows along the [010] direction. Using density functional theory (DFT) in combination with statistical thermodynamics, the facile reduction along the rows was predicted.[1] The experimentally observed MIT transition expands preferentially in the direction of these rows. We then used the Monte Carlo method to simulate the reduced V₂O₅(001) surface at a given temperature and defect concentration. We typically find areas with a random distribution of isolated defects and others with up to 5 sites forming [010] oriented trenches. Using calculated band gaps for reduced V₂O₅ structures as obtained with DFT+U, we construct band gaps maps which agree with those derived from scanning tunneling spectroscopy data; only the areas with defective rows are metallic.
[1] M. V. Ganduglia-Pirovano and J. Sauer, PRB 70, 045422 (2004). [2] R.-P. Blum, H. Niehus, C. Hucho et al., PRL. in press.