A simple procedure to analyze rear-surface internal quantum efficiency

Author

Gee, James M.

Author_Institution

Photovoltaic Syst. Components Dept., Sandia Nat. Labs., Albuquerque, NM, USA

fYear

1996

fDate

13-17 May 1996

Firstpage

557

Lastpage

560

Abstract

Many crystalline-silicon solar cells have grids on both surfaces that allow spectral measurements with illumination of the rear surface. Rear-surface spectral response is very sensitive to the bulk diffusion length and the back-surface recombination velocity (L and S), and in many cases can provide information on these parameters that is not obtainable from analysis of front-surface spectral data. This paper reports a new procedure for analyzing rear-surface spectral data that uses a simple linear fit of rear-surface internal quantum efficiency versus photon absorption length. The paper describes the theoretical basis and limits of the procedure. The application of the procedure to solar cells with different back surfaces is also described

Keywords

carrier lifetime; elemental semiconductors; semiconductor materials; silicon; solar cells; surface recombination; Si; bulk diffusion length; crystalline Si solar cells; crystalline-silicon solar cells; front-surface spectral data; photon absorption length; rear surface illumination; rear-surface internal quantum efficiency; rear-surface spectral response; spectral measurements; Absorption; Crystallization; Data analysis; Information analysis; Lighting; Photovoltaic cells; Radiative recombination; Spectral analysis; Spontaneous emission; Surface fitting;

fLanguage

English

Publisher

ieee

Conference_Titel

Photovoltaic Specialists Conference, 1996., Conference Record of the Twenty Fifth IEEE

Conference_Location

Washington, DC

ISSN

0160-8371

Print_ISBN

0-7803-3166-4

Type

conf

DOI

10.1109/PVSC.1996.564067

Filename

564067