Simulation of 20.96% Efficiency n-type Czochralski UMG Silicon Solar Cell
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Zheng, Peiting
Rougieux, Fiacre E.
Samundsett, Chris
Yang, Xinbo
Wan, Yimao
Degoulange, Julien
Einhaus, Roland
Rivat, Pascal
MacDonald, Daniel
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In this paper, we present the 3D simulation of>20% efficiency solar cells using n-type 100% Upgraded-Metallurgical Grade (UMG) Czochralski (CZ) silicon and Electronic Grade (EG) Float Zone (FZ) fabricated using the same process. The cells have a passivated emitter rear locally diffused (PERL) structure, with an etch-back approach on the rear to maintain high bulk lifetime in the cells via phosphorus gettering. Simulation ofthe power losses of both devices are analysed as a function of measured material and cell parameters, including minority carrier lifetime, reflectance, contact resistivity and recombination parameters of the diffused and non-diffused surfaces.
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Energy Procedia
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