Abstract
High-quality [0 0 0 1]-oriented ZnO films were grown in a single growth experiment on GaN/Al 2O 3 applying a two-step metal organic vapor phase epitaxy growth technique. The essence of this method is the heteroepitaxy of a low-temperature ZnO buffer layer using dimethyl-zinc and tertiary-butanol precursors on GaN/Al 2O 3 and the subsequent homoepitaxial growth of a high-temperature layer using N 2O as O-precursor. The layers show smooth surface morphology and high crystalline quality as demonstrated by X-ray diffraction (FWHM of (0 0 0 2) ω-scans for a 2.28 μm thick layer is 160″). The bright luminescence is dominated by narrow excitonic emission lines (e.g., FWHM <1.3 meV for bound exciton I 8). Our method opens broad prospect for the growth of ZnO-based device structures.
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