DSpace at KIST: Void containing AlN layer grown on AlN nanorods fabricated by polarity selective epitaxy and etching method

Void containing AlN layer grown on AlN nanorods fabricated by polarity selective epitaxy and etching method

Authors: So, B.; Lee, J.; Cheon, C.; Lee, J.; Choi, U.; Kim, M.; Song, J.; Chang, J.; Nam, O.

Abstract: Creating voids between thin films is a very effective method to improve thin film crystal quality. However, for AlN material systems, the AlN layer growth, including voids, is challenging because of the very high Al atom sticking coefficient. In this study, we demonstrated an AlN template with many voids grown on AlN nanorods made by polarity selective epitaxy and etching methods. We introduced a low V/III ratio and NH3 pulsed growth method to demonstrate high-quality coalesced AlN templates grown on AlN nanorods in a metal organic chemical vapor deposition reactor. The crystal quality and residual strain of AlN were enhanced by the void formations. It is expected that this growth method can contribute to the demonstration of high-performance deep UV LEDs and transistors. ？ 2021 Author(s).

Keywords: Ammonia; Crystals; Etching; III-V semiconductors; Metallorganic chemical vapor deposition; Nanorods; Organic chemicals; Organometallics; Superconducting films; Thin films; AlN-layer grown; Crystal qualities; Etching method; Material systems; Residual strains; Selective epitaxy; Sticking coefficients; Void formation; Aluminum nitride; Ammonia; Crystals; Etching; III-V semiconductors; Metallorganic chemical vapor deposition; Nanorods; Organic chemicals; Organometallics; Superconducting films; Thin films; AlN-layer grown; Crystal qualities; Etching method; Material systems; Residual strains; Selective epitaxy; Sticking coefficients; Void formation; Aluminum nitride; void; AlN; nanorod; polarity selective epitaxy

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