The innovation engine for new materials

Tailoring Semiconductor Growth With Light

Seminar Group: 


Dr. Kirstin Alberi


National Renewable Energy Laboratory
Golden, CO


Friday, October 13, 2017 - 11:00am


ESB 1001


Kunal Mukherjee

Synthesis of semiconductor compounds, alloys and heterostructures is often constrained by solubility limits, atomic diffusion and native defect formation, all of which can negatively impact the material properties and performance. Modern uses of semiconductors therefore depend on our ability to control these processes during growth. Some degree of control is typically achieved by tuning two parameters: temperature and chemical potential.  Yet, there are many cases where additional degrees of freedom are desired.  In this talk, I will discuss the application of a third process variable: excess photogenerated carrier populations.  Non-equilibrium carrier concentrations are particularly useful, as they can be used to tune the quasi Fermi levels independently of extrinsic doping conditions, providing a way to further modify carrier exchange with defects, electric fields and desorption rates.  I will detail our understanding of these mechanisms through the examples of 1) suppressing dopant diffusion in modulation-doped structures, 2) reducing native compensating defect concentrations, 3) altering Bi incorporation in GaAs and 4) forming III-V/II-VI hetero-interfaces.  These examples may provide guidance for overcoming other growth challenges with light.