Materials Research (Apr 2020)

Cost-Effective Thin n-type Silicon Solar Cells with Rear Emitter

  • Adriano Moehlecke,
  • Tatiana Lisboa Marcondes,
  • Jéssica de Aquino,
  • Izete Zanesco,
  • Moussa Ly

DOI
https://doi.org/10.1590/1980-5373-mr-2019-0536
Journal volume & issue
Vol. 23, no. 1

Abstract

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Abstract The silicon solar cells achieved relatively low prices in the last years and to introduce a new structure in the PV industry, the amount of silicon per watt has to be reduced, requiring a cost-effective manufacturing process. The use of n-type solar grade silicon has the advantages of presenting higher minority carrier lifetime than p-type one and the absence of the boron-oxygen defects. The aim of this paper is to present the development of 100 μm thick n+np+ silicon solar cells with a selective p+ rear emitter formed by boron deposited by spin-on and an Al/Ag grid deposited by screen-printing. The firing temperature of Ag/Al (rear face) e Ag (front face) was optimized and the temperature of 840 °C produced the devices with higher efficiency. The solar cells presented efficiencies of 16%, achieving a low silicon consumption of 1.6 g/W, 40% lower than thick p-type devices produced by the same process.

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