Optical and electrical properties of Cu-In-Te based thin films and solar cells

Abstract

Cu-In-Te based thin films were grown onto soda-lime glass substrates at a substrate temperature of 200°C by co-evaporation using a molecular beam epitaxy system. The dependence of the optical and electrical properties of the films on the Cu/In atomic ratio was investigated. As the optical bandgap of the CuIn 3 Te 5 thin films was 1.02 eV, the valence and conduction band offsets of the CdS/CuIn 3 Te 5 interface were determined to be 1.54 eV and −0.14 eV, respectively. A solar cell with a ZnO/CdS/CuIn 3 Te 5 /Mo/SLG structure showed a total area (0.50 cm2) efficiency of 5.1% under AM1.5 illumination (100 mW/cm2) after light soaking. The recombination mechanisms in the CdS/CuIn 3 Te 5 thin-film solar cells are suggested on the basis of the temperature dependence of the device properties.