Quantifying the optical losses in back-contact solar cells

Author

McIntosh, Keith R. ; Kho, T.C. ; Fong, K.C. ; Baker-Finch, Simeon C. ; Wan, Yanli ; Zin, N. ; Franklin, E.T. ; Wang, Dongping ; Abbott, Malcolm D. ; Grant, N.E. ; Wang, Eddie ; Stocks, M. ; Blakers, A.W.

Author_Institution

PV Lighthouse, Coledale, NSW, Australia

fYear

2014

fDate

8-13 June 2014

Abstract

A procedure to quantify the optical loss mechanisms in back-contact solar cells is presented. It incorporates recent developments in optical simulation that yield rapid and precise results. The procedure includes spectrophotometry, ellipsometry, quantum efficiency measurements, ray tracing, and the thin-film matrix method. The paper shows how experiments and simulation can be combined to quantify reflection from the front surface, absorption in the antireflection coatings, non-ideal light trapping, and free-carrier absorption-all in terms of a `lost generation current´. The procedure is demonstrated on a back-contact solar cell with single-layer and double-layer antireflection coatings. It is extendable to other cell structures.

Keywords

antireflection coatings; ellipsometry; optical losses; ray tracing; solar cells; spectrophotometry; back-contact solar cells; double-layer antireflection coatings; ellipsometry; free-carrier absorption; lost generation current; nonideal light trapping; optical losses; optical simulation; quantum efficiency measurements; ray tracing; single-layer antireflection coatings; spectrophotometry; thin-film matrix method; Absorption; Ellipsometry; Integrated optics; Optical films; Ray tracing; Reflection; Silicon compounds;

fLanguage

English

Publisher

ieee

Conference_Titel

Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th

Conference_Location

Denver, CO

Type

conf

DOI

10.1109/PVSC.2014.6925360

Filename

6925360