Abstract
Pure e- and β-phase gallium oxide (Ga2O3) films have been successfully grown on Al2O3 (001) substrate via metal–organic chemical vapor deposition (MOCVD) at a growth temperature of 500 °C. Growth pressure controlled nucleation is the dominant controlling parameter for pure phase Ga2O3 film growth. Due to the biaxial stress induced by lattice mismatch, heteroepitaxial e-phase Ga2O3 is grown on Al2O3 by heterogeneous nucleation at low pressure. However, film growth is dominated by spherical nuclei homogeneous nucleation at a pressure higher than 100 mbar, and β-phase Ga2O3 film is grown with a mosaic surface. The optimum pressure for the growth of pure e-Ga2O3 films with superior crystallinity is 35 mbar, whereas the pressure window for pure β-Ga2O3 growth is between 100 mbar and 400 mbar. The growth rate of β-Ga2O3 film is much lower than e-Ga2O3 film at high pressure. On the other hand, all Ga2O3 films have shown good optical properties with a band gap of about 4.9 eV. This fundamental research will help ...
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