Preparation and electrical properties of heterojunctions of ZnO on Zn3P2 and CdTe

Abstract

"Heterojunctions" have been fabricated by the reactive evaporation of thin film n-type ZnO onto p-type single crystal Zn₃P₂, polycrystalline films of Zn₃P₂, and single crystal CdTe. The photovoltaic response of the n-ZnO – single crystal p-CdTe devices was good, that of the n-ZnO – single crystal p-Zn₃P₂ devices was poor, and that of the n-ZnO – p-Zn₃P₂ polycrystalline film devices was nonexistent. The ideality factor n of all devices studied was greater than two. On the basis of 1/C² vs. V results, the n-ZnO – single crystal p-Zn₃P₂ devices behaved most like Schottky barrier devices, whereas the n-ZnO – p-Zn₃P₂ polycrystalline film devices, and the n-ZnO – p-single crystal CdTe "heterojunctions" behaved most like metal–insulator–semiconductor devices. The high series resistance of all devices had to be considered in the measurement and analysis, and it limited the photovoltaic performance. Deep-level transient spectroscopy measurements indicated majority (hole) traps in the CdTe and Zn₃P₂ with activation energies in agreement with previous measurements in the literature.