2016
DOI: 10.1039/c5tc04207k
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Comparison of solution-mixed and sequentially processed P3HT:F4TCNQ films: effect of doping-induced aggregation on film morphology

Abstract: Doping polymeric semiconductors often drastically reduces the solubility of the polymer, leading to difficulties in processing doped films. Here, we compare optical, electrical, and morphological properties of P3HT films doped with F4TCNQ, both from mixed solutions and using sequential solution processing with orthogonal solvents. We demonstrate that sequential doping occurs rapidly (o1 s), and that the film doping level can be precisely controlled by varying the concentration of the doping solution. Furthermo… Show more

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Cited by 285 publications
(528 citation statements)
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“…8,44 As a result, fluorescence intensity is highly sensitive to the density of mobile charges (p free ) and therefore doping level, allowing for simple detection of residual dopants. In these measurements we use sequential doping from an orthogonal solvent 18,19,45 to separate the effects of additional dopants from impurity levels in the initial polymer film coating. This also allows us to measure the fluorescence intensity of each film before doping as well as after dedoping, controlling for sample-to-sample variation in fluorescence intensity (e.g., from thickness variations).…”
Section: Chemistry Of Materialsmentioning
confidence: 99%
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“…8,44 As a result, fluorescence intensity is highly sensitive to the density of mobile charges (p free ) and therefore doping level, allowing for simple detection of residual dopants. In these measurements we use sequential doping from an orthogonal solvent 18,19,45 to separate the effects of additional dopants from impurity levels in the initial polymer film coating. This also allows us to measure the fluorescence intensity of each film before doping as well as after dedoping, controlling for sample-to-sample variation in fluorescence intensity (e.g., from thickness variations).…”
Section: Chemistry Of Materialsmentioning
confidence: 99%
“…18 In the following experiments, all films are sequentially doped from an F4TCNQ/AN solution to achieve a doping level of approximately 3.7 mol %. 19 After doping, each film is rinsed with CB to allow F4TCNQ to intercalate into the P3HT crystallites. 19 Finally, the films are dedoped by by immersion in a 10% amine solution in a polar carrier solvent which does not dissolve the polymer.…”
Section: Chemistry Of Materialsmentioning
confidence: 99%
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