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Title
Maximizing efficiency: Numerical modeling and optimization of 2-terminal perovskite/silicon tandem devices with different bottom cell structures
Abstract
Two-terminal perovskite/silicon (Si) tandem solar cells have made significant progress in terms of efficiency and are considered suitable candidates for the next generation of photovoltaic devices. However, research on Si bottom cell optimization is limited, with optimization being conducted only within a specific structure reported as high efficiency. To present more general and higher efficiency possibilities, optimization is necessary not only for the perovskite and interlayer but also for each bottom Si solar cell structure. In this study, we proposed a numerical modeling approach for analyzing and optimizing the effects of optical and electrical properties in 2-terminal tandem structures. First, the properties for each layer were discussed to minimize optical loss using optical simulations, considering the recently reported high-efficiency 2-terminal perovskite/Si tandem system. After fixing the top perovskite and recombination layer using these properties, each bottom Si structure, which is divided into homojunction (PERC and TOPCon structure) and heterojunction (HIT structure), was electrically simulated. The characteristics of Si bottom cells were identified based on bulk properties (bulk lifetime and resistivity). Consequently, we proposed an improvement method and structure capable of achieving maximum possible efficiency of more than 30 % as a tandem device for each bottom cell structure.
出版机构
Author
Hoyoung Song and Sang Won Lee and Yoonmook Kang and Donghwan Kim and Hae Seok Lee
Journal
Solar Energy
Keywords
2-terminal perovskite/silicon tandem solar cells,Each bottom Si structure,Optical and electrical simulation,Potential efficiency limit,Si bottom cell optimization
Year
2024
Month
5
DOI
10.1016/J.SOLENER.2024.112548
ISSN
0038-092X
Pages
112548
Publisher
Pergamon
Volume
273
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