CdTe Thin Film Solar Cells: The CdS/SnO2 Front Contact

Abstract

Tin dioxide (SnO₂) coated glass is the commonly used substrate for thin film solar cells based on CdTe absorbers. We have investigated the properties of the CdS/SnO₂ interface by X-ray and ultraviolet photoelectron spectroscopy. SnO₂ coated glass substrates as used for solar cell preparation were cleaned by different procedures such as derinsing, sputtering, heating and annealing in oxygen atmosphere. Different surface properties with a strongly dependent number of defects in the SnO₂ band gap are identified. CdS films were deposited stepwise by thermal evaporation to determine the electronic interface properties for different surface preparation conditions. Comparative barrier heights at the CdSSnO₂ contact are found for most surface pretreatments. The Fermi level position in these cases is situated in the SnO₂ band gap. A different interface behaviour is determined for sputter cleaned SnO₂ surfaces, which is attributed to the formation of oxygen vacancies during sputtering and subsequent formation of an interfacial SnO_xS_y compound.