Gwangju Institute of Science and Technology r : vimarsana.co

Remote epitaxy, a promising technology for thin film growth and exfoliation, suffers from substrate damage under harsh conditions. In this regard, researchers recently investigated the effect of nano-sized pits on AlN template surface on GaN remote epitaxy. While GaN thin film could be exfoliated at 750 °C, it failed at 1050 °C. At higher temperatures, the nano pits damaged the graphene layer between the template and the film, causing alterations in the film growth mode.

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South Korea , Gwangju , Kwangju Gwangyoksi , Korea , Dong Seon Lee , Korea Society , School Of Electrical Engineering , Samsung Electronics , University Of Cincinnati , Seoul Optodevice Co , Method Of Research , Head Of The Department Semiconductor Engineering , Gwangju Institute Of Science , Semiconductor Engineering , Electrical Engineering , Computer Science , Gwangju Institute , Proud Creator , Future Science , Seoul Optodevice , Aln Surface Pits , Gan Remote Heteroepitaxy ,