Non-equilibrium Interface and Surface Dynamics

Controlled composition profile of semiconductor alloy quantum dots and nanowires by selecting the growth mode

Feng Liu

University of Utah
[SLIDES]

Semiconductor alloy quantum dots (QDs) and nanowires (NWs) with controlled composition profile are promising nanoscale building blocks for modern nanophotonic and nanoelectronic devices. The overall composition profile of such low-dimensional nanostructures is usually far from equilibrium, because bulk diffusion is negligible at typical growth conditions. However, local equilibrium may be established in the surface regions via surface diffusion. Consequently, the kinetic growth mode, which dictates the way of surface mass transport and alloy mixing in the growth fronts, becomes a key factor in determining the kinetics-limited composition profile. In this talk, I will report our recent discovery of a striking correlation between the composition profile of the strained semiconductor alloy QDs or NWs and their growth modes, based on atomistic-strain-model Monte Carlo simulations of InGaN (GeSi) QDs and NWs. The layer-by-layer growth forms core-shell structures with the core-rich unstrained component; while the faceted growth forms the core-rich strained component. Our findings suggest a promising method for the control of composition profile of semiconductor alloy QDs and NWs by selecting the growth mode.

*This work is supported by DOE-BES program.