Germanium impact on dewetting behavior of silicon-on-insulator

The solid-state dewetting of silicon and germanium thin films is crucial for growing high-performance photoactive layers and crafting Mie resonator-based antireflective coatings, which are essential components for highly sensitive photodetectors and third-generation solar cells. This study illustrates the feasibility of engineering the composition and organization of SiGe nanocrystal on an insulator by combining solid-state dewetting of ultra-thin silicon-on-insulator films (SOI) with epitaxial growth of germanium (Ge). Commencing with an exploration into the dewetting kinetics of conventional SOI, the investigation pivots towards controlling nanocrystal composition through germanium growth on SOI during the dewetting process. When germanium is deposited on SOI, solid-state dewetting prompts the formation of both Ge-rich and Si-rich nanocrystals on the same substrate. The manipulation of these nanocrystals'