Passivating contacts are a promising technology to enhance silicon solar cells conversion efficiency. In this paper, we present a simulation study carried out by using physical models calibrated on the basis of experimental data, aimed at understanding the electrical properties of front emitter silicon solar cells featuring top/rear poly-Si/SiO x selective contacts. Furthermore, we propose a rear junction (RJ) design that desensitizes the fill factor to top electrode resistivity. According to our simulations, the RJ scheme addresses the possibility to omit the transparent conductive oxide allowing promising conversion efficiency of silicon solar cells with carrier-selective contacts. In addition, the influence of the surface recombination velocity at the c-Si/SiO x interfaces and of the effective tunneling masses is investigated.
Massimo, N., Mauro, Z., Frank, F., Martin, H., Claudio, F. (2018). Analysis of Silicon Solar Cells With Poly-Si/SiOx Carrier-Selective Base and Emitter Contacts. IEEE JOURNAL OF PHOTOVOLTAICS, 8(1), 103-109 [10.1109/JPHOTOV.2017.2775142].
Analysis of Silicon Solar Cells With Poly-Si/SiOx Carrier-Selective Base and Emitter Contacts
Massimo Nicolai
;Mauro ZanuccoliMethodology
;Claudio FiegnaSupervision
2018
Abstract
Passivating contacts are a promising technology to enhance silicon solar cells conversion efficiency. In this paper, we present a simulation study carried out by using physical models calibrated on the basis of experimental data, aimed at understanding the electrical properties of front emitter silicon solar cells featuring top/rear poly-Si/SiO x selective contacts. Furthermore, we propose a rear junction (RJ) design that desensitizes the fill factor to top electrode resistivity. According to our simulations, the RJ scheme addresses the possibility to omit the transparent conductive oxide allowing promising conversion efficiency of silicon solar cells with carrier-selective contacts. In addition, the influence of the surface recombination velocity at the c-Si/SiO x interfaces and of the effective tunneling masses is investigated.| File | Dimensione | Formato | |
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