DocumentCode
2435929
Title
Improved performance of p/n InP solar cells
Author
Hoffman, Richard W. ; Fatemi, Jr Navid S ; Jenkins, Phillip P. ; Weizer, Victor G. ; Stan, Mark A. ; Ringel, Steven A. ; Scheiman, David A. ; Wilt, David M. ; Brinker, David J. ; Walters, Robert J. ; Messenger, Scot R.
Author_Institution
Essential Res. Inc., Cleveland, OH, USA
fYear
1997
fDate
29 Sep-3 Oct 1997
Firstpage
815
Lastpage
818
Abstract
The high electrical conversion performance and radiation resistance of InP solar cells were discovered during the last decade. The combination of these two characteristics make InP a very attractive material for space solar cells. To date, the best performance results for both homo-epitaxial and hetero-epitaxial InP solar cells were achieved using a n/p configuration. The p/n configuration is desirable for hetero-epitaxial growth on inexpensive, strong, light weight, group IV substrates such as Si and Ge. We have succeeded in developing p/n configuration homo-epitaxy InP solar cells with begining-of-life AM0 efficiency values exceeding 17.6%. The high efficiency values resulted from improved emitter performance due to a reduction of Zn interstitial defects in the p-type emitter. Preliminary 3 MeV proton irradiation resistance data are presented which show the high efficiency p/n cells retain 75% of begining-of-life power after 7×1011 protons/cm2 fluence
Keywords
III-V semiconductors; indium compounds; interstitials; p-n junctions; semiconductor epitaxial layers; semiconductor growth; semiconductor thin films; solar cells; space vehicle power plants; vapour phase epitaxial growth; zinc; 17.6 percent; 3 MeV; InP; OMVPE; Zn; Zn interstitial defects reduction; begining-of-life AM0 efficiency; electrical conversion performance; emitter performance improvement; hetero-epitaxial solar cells; high efficiency; homo-epitaxial solar cells; p-type emitter; p/n InP solar cells; proton irradiation resistance; radiation resistance; space solar cells; Electric resistance; Indium phosphide; Laboratories; Photovoltaic cells; Protons; Radiative recombination; Semiconductor diodes; Semiconductor materials; Substrates; Zinc;
fLanguage
English
Publisher
ieee
Conference_Titel
Photovoltaic Specialists Conference, 1997., Conference Record of the Twenty-Sixth IEEE
Conference_Location
Anaheim, CA
ISSN
0160-8371
Print_ISBN
0-7803-3767-0
Type
conf
DOI
10.1109/PVSC.1997.654212
Filename
654212
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