Bandgap engineering in an epitaxial two-dimensional honeycomb Si6-xGex alloy

Abstract

In this Letter, we demonstrate that it is possible to form a two-dimensional (2D) silicene-like Si5Ge compound by replacing the Si atoms occupying on-top sites in the planar-like structure of epitaxial silicene on ZrB2(0001) by deposited Ge atoms. For coverages below 1/6 ML, the Ge deposition gives rise to a Si6-xGex alloy (with x between 0 and 1) in which the on-top sites are randomly occupied by Si or Ge atoms. The progressive increase of the valence band maximum with x observed experimentally originates from a selective charge transfer from Ge atoms to Si atoms. These achievements provide evidence for the possibility of engineering the bandgap in 2D SiGe alloys in a way that is similar for their bulk counterpart.