DocumentCode
3027605
Title
Separation of bulk diffusion length and back surface recombination velocity by improved IQE-analysis
Author
Spiegel, M. ; Fischer, B. ; Keller, S. ; Bucher, E.
Author_Institution
Fakultat fur Phys., Konstanz Univ., Germany
fYear
2000
fDate
2000
Firstpage
311
Lastpage
314
Abstract
Key parameters for the quantification of minority carrier recombination in solar cells are the effective bulk diffusion length, the bulk diffusion length and the back surface recombination velocity. As wafer thickness decreases and bulk quality increases the simultaneous determination of these parameters gains importance for cell process optimization in PV industry. Methods for obtaining these parameters have been described in the literature, such as the linear approximation on the inverse IQE vs. light penetration depth. We will formulate the limitations of this approach using numerically and experimentally determined IQE-data. The ambiguity of the older approach is solved by an improved equation, making it possible to obtain these parameters from a fit on the IQE within 820-940 nm. In addition an equation incl. the loss in the emitter is presented. Both methods are ideally suited for fast LBIC scan evaluations
Keywords
carrier lifetime; minority carriers; solar cells; surface recombination; IQE-analysis; PV industry; back surface recombination velocity; bulk diffusion length; cell process optimization; effective bulk diffusion length; fast LBIC scan evaluations; light penetration depth; linear approximation; minority carrier recombination; separation; solar cells; wafer thickness; Absorption; Equations; Linear approximation; Linearity; Monitoring; Photovoltaic cells; Physics; Production; Radiative recombination; Reflectivity;
fLanguage
English
Publisher
ieee
Conference_Titel
Photovoltaic Specialists Conference, 2000. Conference Record of the Twenty-Eighth IEEE
Conference_Location
Anchorage, AK
ISSN
0160-8371
Print_ISBN
0-7803-5772-8
Type
conf
DOI
10.1109/PVSC.2000.915823
Filename
915823
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