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Modeling and implementation of tandem polymer solar cells using wide-bandgap front cellsopen access

Authors
Ko, Seo-JinChoi, HyosungQuoc Viet HoangSong, Chang EunMorin, Pierre-OlivierHeo, JungwooLeclerc, MarioYoon, Sung CheolWoo, Han YoungShin, Won SukWalker, BrightKim, Jin Young
Issue Date
Mar-2020
Publisher
Wiley
Keywords
polymer solar cells; solar cells; tandem solar cells
Citation
Carbon Energy, v.2, no.1, pp 131 - 142
Pages
12
Indexed
SCIE
SCOPUS
Journal Title
Carbon Energy
Volume
2
Number
1
Start Page
131
End Page
142
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/145983
DOI
10.1002/cey2.20
ISSN
2637-9368
Abstract
Tandem device architectures offer a route to greatly increase the maximum possible power conversion efficiencies (PCEs) of polymer solar cells, however, the complexity of tandem cell device fabrication (such as selecting bandgaps of the front and back cells, current matching, thickness, and recombination layer optimization) often result in lower PCEs than are observed in single-junction devices. In this study, we analyze the influence of front cell and back cell bandgaps and use transfer matrix modeling to rationally design and optimize effective tandem solar cell structures before actual device fabrication. Our approach allows us to estimate tandem device parameters based on known absorption coefficients and open-circuit voltages of different active layer materials and design devices without wasting valuable time and materials. Using this approach, we have investigated a series of wide bandgap, high voltage photovoltaic polymers as front cells in tandem devices with PTB7-Th as a back cell. In this way, we have been able to demonstrate tandem devices with PCE of up to 12.8% with minimal consumption of valuable photoactive materials in tandem device optimization. This value represents one of the highest PCE values to date for fullerene-based tandem solar cells.
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