- Organic solar cells (OSC) nowadays match their inorganic competitors in terms of current production but lag behind with regards to their open-circuit voltage loss and fill-factor, with state-of-the-art OSCs rarely displaying fill-factor of 80% and above. The fill-factor of transport-limited solar cells, including organic photovoltaic devices, is affected by material and device-specific parameters, whose combination is represented in terms of the established figures of merit, such as theta and alpha. Herein, it is demonstrated that these figures of merit are closely related to the long-range carrier drift and diffusion lengths. Further, a simple approach is presented to devise these characteristic lengths using steady-state photoconductance measurements. This yields a straightforward way of determining theta and alpha in complete cells and under operating conditions. This approach is applied to a variety of photovoltaic devices-including the high efficiency nonfullerene acceptor blends-and show that the diffusion length of the freeOrganic solar cells (OSC) nowadays match their inorganic competitors in terms of current production but lag behind with regards to their open-circuit voltage loss and fill-factor, with state-of-the-art OSCs rarely displaying fill-factor of 80% and above. The fill-factor of transport-limited solar cells, including organic photovoltaic devices, is affected by material and device-specific parameters, whose combination is represented in terms of the established figures of merit, such as theta and alpha. Herein, it is demonstrated that these figures of merit are closely related to the long-range carrier drift and diffusion lengths. Further, a simple approach is presented to devise these characteristic lengths using steady-state photoconductance measurements. This yields a straightforward way of determining theta and alpha in complete cells and under operating conditions. This approach is applied to a variety of photovoltaic devices-including the high efficiency nonfullerene acceptor blends-and show that the diffusion length of the free carriers provides a good correlation with the fill-factor. It is, finally, concluded that most state-of-the-art organic solar cells exhibit a sufficiently large drift length to guarantee efficient charge extraction at short circuit, but that they still suffer from too small diffusion lengths of photogenerated carriers limiting their fill factor.…
MetadatenAuthor details: | Nurlan TokmoldinORCiDGND, Joachim VollbrechtORCiDGND, Seyed Mehrdad HosseiniORCiDGND, Bowen SunORCiDGND, Lorena Perdigón-ToroORCiDGND, Han Young WooORCiD, Yingping ZouORCiD, Dieter NeherORCiDGND, Safa ShoaeeORCiDGND |
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DOI: | https://doi.org/10.1002/aenm.202100804 |
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ISSN: | 1614-6840 |
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Title of parent work (English): | Advanced energy materials |
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Publisher: | Wiley-VCH |
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Place of publishing: | Weinheim |
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Publication type: | Article |
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Language: | English |
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Date of first publication: | 2021/05/05 |
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Publication year: | 2021 |
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Release date: | 2024/03/11 |
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Tag: | diffusion length; drift length; figure of merit; lifetime‐ mobility product; steady‐ state photoconductance |
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Volume: | 11 |
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Issue: | 22 |
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Article number: | 2100804 |
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Number of pages: | 9 |
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Funding institution: | Alexander von Humboldt Foundation Alexander von Humboldt Foundation; German Research FoundationGerman Research Foundation (DFG) [SH 1660/1-1, NE 410/20-1]; National Natural Science Foundation of ChinaNational Natural Science Foundation of China (NSFC) [21875286]; National Research Foundation (NRF) of KoreaNational Research Foundation of Korea [NRF2020M3H4A3081814, 2019R1A6A1A11044070] |
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Organizational units: | Mathematisch-Naturwissenschaftliche Fakultät / Institut für Physik und Astronomie |
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DDC classification: | 6 Technik, Medizin, angewandte Wissenschaften / 60 Technik / 600 Technik, Technologie |
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Peer review: | Referiert |
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Publishing method: | Open Access / Hybrid Open-Access |
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License (German): | CC-BY - Namensnennung 4.0 International |
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