Depositing Fullerenes in Swollen Polymer Layers via Sequential Processing of Organic Solar Cells |
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| Authors: | Jacobus J. van Franeker Sandra Kouijzer Xianwen Lou Mathieu Turbiez Martijn M. Wienk René A. J. Janssen |
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| Affiliation: | 1. Molecular Materials and Nanosystems & Institute for Complex Molecular Systems, Eindhoven University of Technology, MB, Eindhoven, The Netherlands;2. Dutch Polymer Institute (DPI), AX, Eindhoven, The Netherlands;3. BASF Schweiz AG, Basel, Switzerland;4. Dutch Institute for Fundamental Energy Research, AJ, Eindhoven, The Netherlands |
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| Abstract: | Polymer solar cells are conventionally processed by coating a multicomponent mixture containing polymer, fullerene, solvent, and cosolvent. The photovoltaic performance strongly depends on the nanoscale morphology of the blend, which is largely determined by the precise nature of the solvent composition and drying conditions. Here, an alternative processing route is investigated in which the two active layer components are deposited sequentially via spin coating or doctor blading. Spin coating the fullerene from o‐dichlorobenzene on top of the polymer provides virtually identical morphologies and photovoltaic performance. Using blade coating, the influence of the second‐layer solvent for the fullerene derivative is investigated in further detail. Different aromatic solvents are compared regarding swelling of the polymer layer, fullerene solubility, and evaporation rate. It is found that while swelling of the polymer by the second‐layer solvent is a necessity for sequential processing, the solubility of the fullerene derivative in this solvent has the strongest influence on solar cell performance. Homogeneous layers in which a sufficient amount of fullerene can infiltrate the polymer film can only be achieved when solvents are used that have a very high solubility for the fullerene and swell the polymer layer. |
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| Keywords: | organic electronics polymeric materials solar cells solution processing thin films |
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