Preparation of device quality by selenization of Se-containing precursors in atmosphere

Abstract

Efficient thin-film photovoltaic cells were fabricated, using absorber films obtained from the selenization (in ) of InSe/Cu and InSe/Cu/InSe metallic precursors. The material properties of the layers were critically influenced by the kinetics of the selenization process and the nature of the precursor films before the reaction step. Selenization of InSe/Cu precursors resulted in layers with poor morphological features (droplet formation) and in cells with relatively low conversion efficiencies . Optimal material properties were obtained when InSe/Cu/InSe precursors were selenized in (atmospheric pressure) while ramping the temperature slowly between and . This process produced relatively uniform and dense films which exhibited large crystallites of high crystalline quality. Preliminary heterojunction solar cell devices were fabricated using these films, and conversion efficiencies exceeding 10% (total area) were obtained without the use of an antireflective coating.