Understanding Interfacial Recombination Processes in Narrow-Band-Gap Organic Solar Cells
Schopp N. Luong H.M. Luginbuhl B.R. Panoy P. Choi D. Promarak V. Brus V.V. Nguyen T.-Q.
13 May 2022American Chemical Society
ACS Energy Letters
2022#7Issue 51626 - 1634 pp.
Recombination losses in organic photovoltaics (OPVs) remain a performance-limiting factor, including bulk trap-assisted recombination and interfacial recombination at the electrode:active layer interface. In this work, we demonstrate the role of the front electrode:active layer interface in a narrow-band-gap system, PCE10:COTIC-4F, a promising candidate for semitransparent organic photovoltaics. We systematically address charge generation, recombination, and extraction, with a focus on interfacial recombination via surface traps by a comparison of four device structures with electrodes based on ZnO, ZnO/PFN-Br, PEDOT:PSS, and a self-doped conjugated polyelectrolyte (CPE-K). The amount of interfacial recombination is affected significantly by the electrode choice, while similar levels of bulk recombination are maintained. For the studied blend, we identify ZnO as a suitable choice, pairing low surface recombination rates with beneficial charge carrier generation, favorable energy level alignment, and efficient extraction. In contrast, PEDOT:PSS-based devices suffer from interfacial recombination, which can be suppressed when CPE-K is used instead.
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Department of Physics, School of Sciences and Humanities, Nazarbayev University, Nur-Sultan City, 010000, Kazakhstan
Center for Polymers and Organic Solids, Department of Chemistry and Biochemistry, University of California Santa Barbara (UCSB), Santa Barbara, 93106, CA, United States
Department of Materials Science and Engineering, School of Molecular Science and Engineering, Vidyasirimedhi Institute of Science and Technology, Rayong, Wangchan, 21210, Thailand
Department of Physics
Center for Polymers and Organic Solids
Department of Materials Science and Engineering
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