Highly transparent and conductive Ga-doped ZnO films with good thermal stability prepared by dual-target reactive sputtering

Abstract

Generally, Zn-Ga metal alloy or ZnO-Ga2O3 ceramic is used as the sputtering target for the preparation of Ga-doped ZnO (GZO) films. However, it is often difficult or expensive to obtain Ga heavily doped ZnO films with good optoelectronic properties. In this article, GZO films were deposited by both DC sputtering of zinc target and RF sputtering of Ga2O3 target for the first time. It was studied for the influences of the sputtering power of Ga2O3 target varied from 0 to 150W. Moreover, the thermal stability of the as-deposited GZO films was analyzed. The GZO films have a hexagonal wurtzite structure with (002) preferred orientation. The Ga doping increases with the Ga2O3 power, in which the maximum doping amount reaches 6.5at%. However, when the power is 130W, the GZO film has the highest carrier concentration of 2.4×1021cm−3 and the lowest resistivity of 2.2×10−4 Ωcm, while remains high visible average transmittance of 85.3%. Furthermore, our developed GZO films can maintain highly transparent conductive performance even after annealing at elevated temperature (up to 500°C).