Anomalous dark current ideality factor (n > 2) in thin-film solar cells: The role of grain-boundary defects

Author

Sozzi, G. ; Mosca, R. ; Calicchio, M. ; Menozzi, R.

Author_Institution

Dept. of Inf. Eng., Univ. of Parma, Parma, Italy

fYear

2014

fDate

8-13 June 2014

Firstpage

1718

Lastpage

1721

Abstract

By comparing simulated and measured dark I-V characteristics of CIGS cells, we investigate the low-voltage anomalous (> 2) ideality factor, and find that it can be explained by large donor trap concentrations at grain boundaries, and SRH recombination therein, with no need of complex models involving tunneling, coupled traps, etc. We studied 3 different samples, in all cases achieving excellent fit of the non-monotonic ideality factor. The illuminated cell performance also matches the experiments very well. The most important parameter determining value and voltage dependence of the anomalous ideality factor is the peak energy of the grain boundary donor distribution.

Keywords

grain boundaries; semiconductor thin films; solar cells; CIGS cells; SRH recombination; anomalous dark current ideality factor; coupled traps; donor trap concentrations; grain boundaries; grain boundary donor distribution; grain-boundary defects; nonmonotonic ideality factor; peak energy; thin-film solar cells; tunneling; Anodes; Charge carrier processes; Current density; Photovoltaic cells; Physics; Voltage measurement; CIGS; ideality factor; thin-film photovoltaics;

fLanguage

English

Publisher

ieee

Conference_Titel

Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th

Conference_Location

Denver, CO

Type

conf

DOI

10.1109/PVSC.2014.6925252

Filename

6925252