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Investigation of Deep-Level Defects Lateral Distribution in Active Layers of Multicrystalline Silicon Solar Cells

Published online by Cambridge University Press:  22 May 2017

Vladimir G. Litvinov*
Affiliation:
Ryazan State Radio Engineering University, 59/1 Gagarin Str., Ryazan, 390005, Russian Federation
Alexander V. Ermachikhin
Affiliation:
Ryazan State Radio Engineering University, 59/1 Gagarin Str., Ryazan, 390005, Russian Federation
Dmitry S. Kusakin
Affiliation:
Ryazan State Radio Engineering University, 59/1 Gagarin Str., Ryazan, 390005, Russian Federation
Nikolay V. Vishnyakov
Affiliation:
Ryazan State Radio Engineering University, 59/1 Gagarin Str., Ryazan, 390005, Russian Federation
Valery V. Gudzev
Affiliation:
Ryazan State Radio Engineering University, 59/1 Gagarin Str., Ryazan, 390005, Russian Federation
Andrey S. Karabanov
Affiliation:
Helios-Resource Ltd., Saransk, Mordovia, 126/1 Proletarskaya Str., 430001, Russian Federation
Sergey M. Karabanov
Affiliation:
Ryazan State Radio Engineering University, 59/1 Gagarin Str., Ryazan, 390005, Russian Federation
Sergey P. Vikhrov
Affiliation:
Ryazan State Radio Engineering University, 59/1 Gagarin Str., Ryazan, 390005, Russian Federation
*
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Abstract

The influence of deep level defects lateral distribution in active layers of multicrystalline Si-based standard solar cells is investigated. Multicrystalline p-type Si wafers with 156×156 mm dimensions and 200 μm thickness were used for SCs preparation. One type of solar cells with conversion efficiency 20.4% was studied using capacitance voltage characteristics method (C-V) and by current deep level transient spectroscopy (I-DLTS). From various places along the diagonal of solar cell’s substrate with 20.4% efficiency nine pieces with an area ∼20 mm2 were extracted and studied. I-DLTS spectra of the five pieces from solar cell were measured. The features of deep levels defects concentration lateral distribution along the SC’s surface were studied.

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Articles
Copyright
Copyright © Materials Research Society 2017 

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References

REFERENCES

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