Journal article
Analytical model for simulating thin-film/wafer-based tandem junction solar cells
Solar energy, Vol.150, pp.287-297
07/2017
DOI: 10.1016/j.solener.2017.04.053
Abstract
Replacing the present-day commercial single junction silicon (Si) solar cells with low cost, high efficiency solar cells is imperative, in order to compete with other existing energy technologies. Many research groups have looked into using III–V materials, tandem junction solar cells and thin-film technologies to reach higher efficiencies. However, many of these techniques involve expensive materials or costly manufacturing processes. In this research, we focus on a tandem junction solar cell design that is based on a thin-film perovskite top cell and wafer-based Si bottom cell. In order to analyze the performance of the tandem cell, an analytical model is needed to compute the quantum efficiency and characteristic solar cell data. The highly versatile Matlab-based analytical model presented in this work is capable of modeling different kinds of tandem cells based on a variety of solar absorber combinations. The model allows user to adjust input parameters, such as reflectivity, material thickness, donor and acceptor densities, and carrier lifetimes in order to optimize the quantum efficiency, maximum power output, open circuit voltage, and short circuit current quantities of the cell. Using this analytical model, we were able to design a perovskite and black Silicon (bSi) tandem cell, which reached an efficiency of greater than 30%.
Details
- Title: Subtitle
- Analytical model for simulating thin-film/wafer-based tandem junction solar cells
- Creators
- Lauren Davidson - University of IowaK.A.S.M. Ehteshamul Haque - University of IowaFatima Toor - University of Iowa
- Resource Type
- Journal article
- Publication Details
- Solar energy, Vol.150, pp.287-297
- DOI
- 10.1016/j.solener.2017.04.053
- ISSN
- 0038-092X
- eISSN
- 1471-1257
- Grant note
- DOI: 10.13039/100009228, name: Iowa Energy Center, award: OG-16-019; name: University of Iowa Vice President of Research Office; name: University of Iowa to Fatima Toor
- Language
- English
- Date published
- 07/2017
- Academic Unit
- Physics and Astronomy; Electrical and Computer Engineering; Iowa Technology Institute; Holden Comprehensive Cancer Center
- Record Identifier
- 9984197311302771
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