Thermal analysis of liquid phase epitaxy of ZnO and characteristics of some Li-doped Mg/sub 0.06/Zn/sub 0.94/O/ZnO heterostructure

Abstract

Thermogravimetry and differential thermal analysis (TG/DTA) were used to examine a process capable of fabricating homoepitaxial, single-crystalline MexZn1xO (Me=Mg, Ga, etc.) films under thermodynamically stable conditions by liquid phase epitaxy. A liquid solution of alkaline metal (Li, Na, Cs) chlorides is employed at temperatures of 580650C. A reaction of Me+n-Cln/ZnCl2 with polycrystalline K2CO3 is applied to continuously form MexZn1xO over a 16 h process cycle under ambient air atmosphere and pressure as shown by TG/DTA. Mirror-like films with a thickness 3 m have been grown. The high structural quality of the film with sharp inter-facial transition from substrate to film has made it possible to observe a surface conductive channel. Temperature-dependent Hall measurement on Li-doped Mg0.06Zn0.94O/ZnO heterostructures under vacuum conditions discloses a high-resistivity state with 103 cm at 300 K and a low-resistivity state with <10 cm at 550 K.