Water Adsorption at the Tetrahedral Titania Surface Layer of SrTiO3(110)-(4 × 1)

Zhiming Wang; Xianfeng Hao; Stefan Gerhold; Zbynek Novotny; Cesare Franchini; Eamon McDermott; Karina Schulte; Michael Schmid; Ulrike Diebold

doi:10.1021/jp407889h

Water Adsorption at the Tetrahedral Titania Surface Layer of SrTiO₃(110)-(4 × 1)

J Phys Chem C Nanomater Interfaces. 2013 Dec 12;117(49):26060-26069. doi: 10.1021/jp407889h. Epub 2013 Nov 25.

Authors

Zhiming Wang¹, Xianfeng Hao¹, Stefan Gerhold¹, Zbynek Novotny¹, Cesare Franchini², Eamon McDermott³, Karina Schulte⁴, Michael Schmid¹, Ulrike Diebold¹

Affiliations

¹ Institute of Applied Physics, Vienna University of Technology , 1040 Vienna, Austria.
² Faculty of Physics & Center for Computational Materials Science, University of Vienna , 1090 Vienna, Austria.
³ Institute of Materials Chemistry, Vienna University of Technology , 1060 Vienna, Austria.
⁴ MAX IV Laboratory, Lund University , SE-221 00 Lund, Sweden.

Abstract

The interaction of water with oxide surfaces is of great interest for both fundamental science and applications. We present a combined theoretical (density functional theory (DFT)) and experimental (scanning tunneling microscopy (STM) and photoemission spectroscopy (PES)) study of water interaction with the two-dimensional titania overlayer that terminates the SrTiO₃(110)-(4 × 1) surface and consists of TiO₄ tetrahedra. STM and core-level and valence band PES show that H₂O neither adsorbs nor dissociates on the stoichiometric surface at room temperature, whereas it does dissociate at oxygen vacancies. This is in agreement with DFT calculations, which show that the energy barriers for water dissociation on the stoichiometric and reduced surfaces are 1.7 and 0.9 eV, respectively. We propose that water weakly adsorbs on two-dimensional, tetrahedrally coordinated overlayers.