Electroluminescent study of the efficiency of silicon heterostructural solar cells

被引:0
|
作者
V. N. Verbitskii
I. E. Panaiotti
S. E. Nikitin
A. V. Bobyl’
G. G. Shelopin
D. A. Andronikov
A. S. Abramov
A. V. Sachenko
E. I. Terukov
机构
[1] Russian Academy of Sciences,Ioffe Physical Technical Institute
[2] Russian Academy of Sciences,R&D Center for Thin
来源
Technical Physics Letters | 2017年 / 43卷
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摘要
A strong (by more than an order of magnitude) change in the electroluminescence intensity is observed for the first time in high-quality heterojunction solar cells that are based on a single-crystal silicon and have an efficiency of 18 to 20.5%. This effect occurs due to the sharp change in the concentration of the recombination centers on the surface of single-crystal silicon wafers in the course of their pyramidal texturing and also due to the rise in the series resistance. The effect can be used for a quantitative highly sensitive characterization of the texturing, which is a fundamentally important stage in fabricating highly efficient silicon solar cells.
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页码:779 / 782
页数:3
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