Experimental study to separate surface and bulk contributions of light-induced degradation in crystalline silicon solar cells
Document Type
Article
Publication Date
12-1-2015
Abstract
In this paper, investigations toward understanding the bulk and surface components of light-induced degradation (LID) in low-iron crystalline silicon (Si) solar cells are explored. The bulk effects, arising from boron–oxygen defects, are determined by comparing degradation of cell parameters and their thermal recovery, with that of the minority-carrier lifetime (τ) in sister wafers. It is found that the lifetime of wafer, τ, is recovered fully after annealing, but cell efficiency is recovered partially. It is also shown that cells having SiN:H coating experience a surface degradation (ascribed to surface recombination). The surface LID is seen as an increase in the q/2kT component of the dark saturation current (J02). The surface LID does not recover fully upon annealing and is attributed to degradation linked to the SiN:H–Si interface. This behavior is also exhibited by multi-crystalline silicon cells that have very low oxygen content and do not show any bulk degradation.
Identifier
84991528825 (Scopus)
Publication Title
Emerging Materials Research
External Full Text Location
https://doi.org/10.1680/emr.15.00041
e-ISSN
20460155
ISSN
20460147
First Page
239
Last Page
246
Issue
2
Volume
4
Grant
DE-AC36-08GO28308
Fund Ref
National Renewable Energy Laboratory
Recommended Citation
Basnyat, Prakash; Sopori, Bhushan; Devayajanam, Srinivas; Shet, Sudhakar; Binns, Jeff; Appel, Jesse; and Ravindra, Nuggehalli M., "Experimental study to separate surface and bulk contributions of light-induced degradation in crystalline silicon solar cells" (2015). Faculty Publications. 6652.
https://digitalcommons.njit.edu/fac_pubs/6652
