Dresden 2017 – wissenschaftliches Programm

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O: Fachverband Oberflächenphysik

O 89: Oxide and Insulator Surfaces: Adsorption III

O 89.3: Vortrag

Donnerstag, 23. März 2017, 11:00–11:15, TRE Phy

Electron Transfer between Anatase TiO₂ (101) and an Adsorbed O₂ Molecule: Direct Observation by nc-AFM — •Martin Setvin, Jan Hulva, Gareth Parkinson, Michael Schmid, and Ulrike Diebold — TU Wien

The electron transfer between the substrate and an adsorbed molecule is a key process in catalysis, photocatalysis, electrochemistry or redox chemistry. We use a low temperature q-Plus STM/AFM to study the electron transfer between the anatase TiO₂ (101) surface and a single adsorbed O₂ molecule. We can directly distinguish neutral physisorbed O₂ molecules in the triplet state from negatively charged (O₂)⁻ radicals, based on their different chemical reactivity towards the tip apex. Neutral O₂ molecules are inert, while the (O₂)⁻ radicals readily form a chemical bond with the tip. By biasing the tip, we can charge and discharge the molecules at will and we show that the identical processes occur during UV illumination of the sample. Using the Kelvin-probe force spectroscopy, we investigate in detail the process of charge transfer between the substrate and the adsorbed molecule. The experiments point towards a key importance of the physisorbed O₂ state and its electron affinity. The AFM data are supported by area-averaged spectroscopic techniques such as temperature programmed desorption or photoelectron spectroscopy.