Characterization of the growth of aluminum nitride and gallium nitride thin films on hydrogen etched and/or cleaned hydrogen-6-silicon carbide(0001) surfaces.

摘要

The surface morphology and atomic structure of nitrogen doped, n-type 6H-SiC(0001)_Si wafers before and after various surface preparation techniques were investigated. As-received wafers were exposed to in-situ cleaning with or without excess silicon to obtain either a (√3 x √3)R30° or a (3 x 3) reconstructed surface. The resulting surfaces were characterized using reflection high-energy electron diffraction, photoelectron emission microscopy, and atomic force microscopy. An atomically clean, reconstructed surface was obtained via thermal annealing at 950°C. Cleaning with excess silicon resulted in the formation of silicon islands on the surface.; The surface morphology of hydrogen etched wafers depended upon their doping concentrations. Wafers with doping concentrations of ≥2.5 × 1018 and ≤1.35 × 1018 (N_D-N _A)/cm3 were investigated with the former exhibiting more surface features. The microstructure of all the samples showed regions with full and half unit cell high steps. An atomically clean, ordered, stepped surface was achieved via annealing at 1030°C. Chemical vapor cleaning resulted in the formation of silicon islands.; The initial growth of AlN and GaN thin films on the cleaned, hydrogen etched 6H-SiC(0001) substrates were investigated using PEEM and AFM. The AlN films nucleated immediately and coalesced, except in the areas of the substrate surface which contained half unit cell height steps where pits were observed. The GaN films grown at 800°C for 2.5 minutes exhibited nucleation and three-dimensional growth along the steps. The GaN films deposited at 700°C for 2 minutes grew three-dimensionally with coalescence of the film dependent upon the step structure. Almost complete coalescence occurred in regions with unit cell high steps and incomplete coalesce occurred in regions with half unit cell height steps.; Films of AlN grown for 30 minutes via GSMBE on hydrogen etched surfaces exhibited two-dimensional growth and had an RMS roughness value of 4 Å. Films grown at 1000°C exhibited an SK growth mode and had rocking curve FWHM of 150–200 arcsecs. MOCVD grown films on hydrogen etched wafers had an RMS roughness value of 4 Å and a XRD rocking curve FWHM of ≈260 arcsecs.