P3HT: non-fullerene acceptor based large area, semi-transparent PV modules with power conversion efficiencies of 5%, processed by industrially scalable methods

S. Strohm; F. Machui; S. Langner; P. Kubis; Nicola Gasparini; Michael Salvador; Iain McCulloch; H.-J. Egelhaaf; C. J. Brabec

doi:10.1039/c8ee01150h

P3HT: non-fullerene acceptor based large area, semi-transparent PV modules with power conversion efficiencies of 5%, processed by industrially scalable methods

S. Strohm, F. Machui, S. Langner, P. Kubis, Nicola Gasparini, Michael Salvador, Iain McCulloch, H.-J. Egelhaaf, C. J. Brabec

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Abstract

The transfer from poly-3hexylthiophene (P3HT) based fullerene free organic photovoltaic (OPV) lab cells with IDTBR (rhodanine-benzothiadiazole-coupled indacenodithiophene) as acceptor material to fully solution processed roll-to-roll (R2R) compatible modules is reported. The developed R2R process is fully compatible with industrial requirements as it uses exclusively non-hazardous solvents. The combination of optimized ink formulation, module layout, and processing affords efficiencies of 5% on 60 cm total module area.

Original language	English (US)
Pages (from-to)	2225-2234
Number of pages	10
Journal	Energy & Environmental Science
Volume	11
Issue number	8
DOIs	https://doi.org/10.1039/c8ee01150h
State	Published - Aug 1 2018

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Strohm, S., Machui, F., Langner, S., Kubis, P., Gasparini, N., Salvador, M., McCulloch, I., Egelhaaf, H-J., & Brabec, C. J. (2018). P3HT: non-fullerene acceptor based large area, semi-transparent PV modules with power conversion efficiencies of 5%, processed by industrially scalable methods. Energy & Environmental Science, 11(8), 2225-2234. https://doi.org/10.1039/c8ee01150h

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title = "P3HT: non-fullerene acceptor based large area, semi-transparent PV modules with power conversion efficiencies of 5%, processed by industrially scalable methods",

abstract = "The transfer from poly-3hexylthiophene (P3HT) based fullerene free organic photovoltaic (OPV) lab cells with IDTBR (rhodanine-benzothiadiazole-coupled indacenodithiophene) as acceptor material to fully solution processed roll-to-roll (R2R) compatible modules is reported. The developed R2R process is fully compatible with industrial requirements as it uses exclusively non-hazardous solvents. The combination of optimized ink formulation, module layout, and processing affords efficiencies of 5% on 60 cm total module area.",

author = "S. Strohm and F. Machui and S. Langner and P. Kubis and Nicola Gasparini and Michael Salvador and Iain McCulloch and H.-J. Egelhaaf and Brabec, {C. J.}",

note = "KAUST Repository Item: Exported on 2020-04-23 Acknowledgements: The authors gratefully acknowledge the “Solar Factory of the Future” as part of the Energy Campus N{\"u}rnberg (EnCN), which is supported by the Bavarian State Government (FKZ 20.2-3410.5-4-5). The authors wish to thank Prof. I. McCulloch (Department of Chemistry, Imperial College, London) for providing IDTBR. S. L. gratefully thanks the Bavarian State Ministry of the Environment and Consumer Protection (TNT01 NaT-646845) for financial support as part of the research project “Umweltfreundliche Hocheffiziente Organische Solarzellen (UOS)”. Partial Financial support was provided for the Deutsche Forschungsgemeinschaft (DFG) in the framework of SFB 953 (Synthetic Carbon Allotropes).",

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Strohm, S, Machui, F, Langner, S, Kubis, P, Gasparini, N, Salvador, M, McCulloch, I, Egelhaaf, H-J & Brabec, CJ 2018, 'P3HT: non-fullerene acceptor based large area, semi-transparent PV modules with power conversion efficiencies of 5%, processed by industrially scalable methods', Energy & Environmental Science, vol. 11, no. 8, pp. 2225-2234. https://doi.org/10.1039/c8ee01150h

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AU - Strohm, S.

AU - Machui, F.

AU - Langner, S.

AU - Kubis, P.

AU - Gasparini, Nicola

AU - Salvador, Michael

AU - McCulloch, Iain

AU - Egelhaaf, H.-J.

AU - Brabec, C. J.

N1 - KAUST Repository Item: Exported on 2020-04-23 Acknowledgements: The authors gratefully acknowledge the “Solar Factory of the Future” as part of the Energy Campus Nürnberg (EnCN), which is supported by the Bavarian State Government (FKZ 20.2-3410.5-4-5). The authors wish to thank Prof. I. McCulloch (Department of Chemistry, Imperial College, London) for providing IDTBR. S. L. gratefully thanks the Bavarian State Ministry of the Environment and Consumer Protection (TNT01 NaT-646845) for financial support as part of the research project “Umweltfreundliche Hocheffiziente Organische Solarzellen (UOS)”. Partial Financial support was provided for the Deutsche Forschungsgemeinschaft (DFG) in the framework of SFB 953 (Synthetic Carbon Allotropes).

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N2 - The transfer from poly-3hexylthiophene (P3HT) based fullerene free organic photovoltaic (OPV) lab cells with IDTBR (rhodanine-benzothiadiazole-coupled indacenodithiophene) as acceptor material to fully solution processed roll-to-roll (R2R) compatible modules is reported. The developed R2R process is fully compatible with industrial requirements as it uses exclusively non-hazardous solvents. The combination of optimized ink formulation, module layout, and processing affords efficiencies of 5% on 60 cm total module area.

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P3HT: non-fullerene acceptor based large area, semi-transparent PV modules with power conversion efficiencies of 5%, processed by industrially scalable methods

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