Hydrogen ion motion in amorphous silicon solar cells at elevated temperatures

Abstract

Electric field‐enhanced degradation has been observed in amorphous silicon solar cells exposed to intense illumination (45–60 suns) at elevated temperatures (≳160 °C). The front tin oxide contacts of both p–i–n and n–i–p cells darken significantly when a strong reverse bias is applied at elevated temperatures and under intense illumination. Compositional profiles of the cells show that a strong reverse bias causes a depletion of hydrogen near the contacts. These results are interpreted in terms of proton motion near the p/i interface of p–i–n cells and negative hydrogen ion motion near the i/n interface.