Mist Chemical Vapor Deposition 2

Abstract

e-Ga2O3 is one of the five polymorphs of Ga2O3, which has attracted considerable attention because it exhibits unique polarization and ferroelectric properties. In this chapter, we describe the growth of e-Ga2O3 thin films via mist chemical vapor deposition (CVD). In the epitaxial growth of e-Ga2O3 thin films, we demonstrated that various substrates allow e-Ga2O3 growth via mist CVD because of the atomic arrangement between the surface of the substrate and the e-Ga2O3 growth surface. Further, a method for distinguishing the hexagonal and orthorhombic structures of e-Ga2O3 using X-ray diffraction (XRD) φ-scans was explained in detail. In our experiments, all e-Ga2O3 thin films grown via mist CVD exhibited orthorhombic crystal structure, which permits rotational domains. Furthermore, the growth mechanism of these rotational domains was explained using the atomic arrangement of e-Ga2O3 and the crystal structures of the substrates. Finally, bandgap engineering from 4.5 to 5.9 eV was demonstrated via mist CVD with the incorporation of In and Al.