Improvement of structural quality of AlN layers grown on c-plane sapphire substrate by metal-organic vapor phase epitaxy using post-growth annealing with trimethylgallium

Abstract

AlN layers were grown on a c-plane sapphire substrate by metal-organic vapor phase epitaxy (MOVPE) at 1350 °C. The structural quality of the grown AlN layers was drastically improved by post-growth annealing in mixed hydrogen, ammonia, and trimethylgallium ambiance at 1350 °C. As a first step, we grew the AlN layers exhibiting a double-domain structure with an in-plane rotation angle of ∼4°. Then, the domain structure was changed from double to single by the post-growth annealing. After 20 min post-growth annealing, the surface possessed an atomically flat step-and-terrace structure with a root-mean-square value of ∼0.11 nm measured across 5 × 5 μm2. The full-width at half maximum values for 0002 and 101̄4 AlN reflections using x-ray diffraction were as small as ∼75 and ∼280 arcsec, respectively. Since this work provides a simple continuous MOVPE growth procedure to improve the structural quality of AlN/sapphire, it is advantageous to the industrial fabrication of AlxGa1-xN-based ultraviolet light-emitters.