Abstract

Abstract Layer by layer growth of ZnO epilayers on (0001) Al2O3 substrates is achieved by radical-source molecular beam epitaxy. A thin MgO buffer, followed by a low-temperature ZnO buffer was used in order to accommodate the lattice mismatch between ZnO and sapphire. Reflection high-energy electron diffraction intensity was employed for the optimization of the ZnO growth. The surface morphology of the samples was studied with atomic force microscopy. Investigation of the nature of the influence of the MgO buffer layer on the formation of ZnO on sapphire substrate was carried out using Transmission Electron Microscopy. For the first time it was shown that a thin spinel (magnesium aluminum oxide) layer is formed on the interface of the sapphire substrate and MgO buffer layer leading to the crystalline quality improvement of the ZnO main layer. X-Ray diffractometry measurements of the obtained ZnO layers show excellent quality of the single crystalline ZnO heteroepitaxially grown on sapphire. The crystalline quality of the ZnO layers is even better than that of our previously reported layers grown employing hydrogen peroxide as an oxidant. The full width at half maximum of the XRD (0002) rocking curve is as low as 25 arc s. The influence of growth parameters (Zn/O flux ratio, temperature, etc.) on the structural properties as well as on the surface morphology of the zinc oxide layers on sapphire is investigated and discussed.

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