Formation of a two-dimensional oxide via oxidation of a layered material

We investigate the oxidation mechanism of the layered model system GeAs. In situ X-ray photoelectron spectroscopy experiments performed by irradiating an individual flake with synchrotron radiation in the presence of oxygen show that while As leaves the GeAs surface upon oxidation, a Ge-rich ultrathin oxide film is being formed in the topmost layer of the flake. We develop a theoretical model that supports the layer-by-layer oxidation of GeAs, with a logarithmic kinetics. Finally, assuming that the activation energy for the oxidation process changes linearly with coverage, we estimate that the activation energy for As oxidation is almost twice that for Ge at room temperature.

Automated summary

We investigate the oxidation mechanism of GeAs and find that a Ge-rich ultrathin oxide film is formed on the surface while As leaves upon oxidation. A theoretical model suggests that the activation energy for As oxidation is almost twice that for Ge at room temperature.