Cu(In,Ga)Se2 Solar Cells: Device Stability Based on Chemical Flexibility

A lift-o process has been developed to obtain Cu(In,Ga)Se 2 solar cells on ¯exible polymer sheets. The absorber layer is grown by a co-evaporation method on a polyimide layer, which is spin coated on a NaCl covered glass substrate. The NaCl intermediate layer can provide Na to the Cu(In,Ga)Se 2 laye

## Abstract Results are presented on the construction of a thin‐layer photovoltaic cell on glass‐fiber fabric. The unevenness of the fabric was first smoothed by the application of a high‐temperature stable resin before photovoltaic layer deposition. We obtained an efficiency of light‐to‐current co

Temperature-dependent measurements of the current±voltage characteristics and of the junction admittance of ZnO/CdS/Cu(In,Ga)Se 2 heterojunction solar cells are presented, together with numerical modelling of these experimental results. We explain the cross-over between dark and illuminated current±

This contribution is a summary of an international, interdisciplinary workshop dedicated to defects in chalcopyrite semiconductors and their relation to the device characteristics of thin-®lm solar cells, held on 3±5 June 1996 in Oberstdorf, Germany. Results of dierent characterization methods were