Growing Perfect Single-Crystal Epitaxial Films of (Si<sub>2</sub>)<sub>1-x</sub>(GaN)<sub>x</sub> Solid Solutions on Si (111) Substrates from the Liquid Phase
Abstract
The technological capabilities of the method of liquid-phase epitaxy from a limited volume of Sn solution-melt for obtaining films of substitutional solid solution (Si2)1-x(GaN)x on Si (111) substrates are shown. The grown films had a single-crystal structure with (111) orientation, n-type conductivity with a resistivity of ρ ≈ 1.38 Ω ∙ cm, a carrier concentration of n ≈ 3.4 x 1016 cm-3, and a charge carrier mobility of µ ≈ 133 cm2/(V ∙ s). The relatively narrow width (full width at half maximum of 780 arcsec) and high intensity (2 x 105 pulses/s) of the main structural reflection (111)Si/GaN indicate a high degree of perfection of the crystal lattice of the epitaxial layer (Si2)1-x(GaN)x. The photosensitivity region of p-Si–n-(Si2)1-x(GaN)x heterostructures covers the photon energy range from 1.2 to 2.4 eV, with a maximum at 1.9 eV.