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Sub-Micrometer Structure Formation during Spin Coating Revealed by Time-Resolved In Situ Laser and X-Ray Scattering

van Franeker, J. J., Hermida-Merino, D., Gommes, C., Arapov, K., Michels, J. J., Janssen, R. A. J. & Portale, G., 8-Dec-2017, In : Advanced Functional Materials. 27, 46, 12 p., 1702516.

Research output: Contribution to journalArticleAcademicpeer-review

  • Jacobus J. van Franeker
  • Daniel Hermida-Merino
  • Cedric Gommes
  • Kirill Arapov
  • Jasper J. Michels
  • Rene A. J. Janssen
  • Giuseppe Portale

Solution-processed thin polymer films have many applications, such as organic electronics and block-copolymer nanofabrication. These films are often made by spin coating a solution that contains one or more solids and can show different phase-separated structures. The formation mechanism of the droplet-like morphology is studied here by processing polystyrene (PS) and a fullerene derivative ([6,6]-phenyl-C-71-butyric acid methyl ester, [70]PCBM) from o-xylene. The final structure consists of [70]PCBM droplets partially embedded in a PS-rich matrix showing interdomain distance of 100-1000 nm as determined from transmission electron microscopy and grazing incidence small angle X-ray scattering (GISAXS). To elucidate the formation of these morphologies in real time, ultrafast in situ GISAXS coupled with laser interferometry and laser scattering is performed during spin coating. In situ thickness measurements and laser scattering show that liquid-liquid phase separation occurs at approximate to 70 vol% solvent. Subsequently, in only 100-400 ms, almost dry [70]PCBM domains start to protrude from the swollen PS-rich matrix. These results are used to verify the ternary phase diagram calculated using Flory-Huggins theory. The discussed multitechnique approach can be applied to study fundamental aspects in soft matter such as phase separation in thin films occurring at very short time scales.

Original languageEnglish
Article number1702516
Number of pages12
JournalAdvanced Functional Materials
Volume27
Issue number46
Publication statusPublished - 8-Dec-2017

    Keywords

  • fullerenes, microstructures, nanostructures, polymers, thin films, VISCOELASTIC PHASE-SEPARATION, ORGANIC SOLAR-CELLS, REAL-TIME, POLYMER BLENDS, FILMS, MORPHOLOGY, MIXTURES, CRYSTALLIZATION, ESRF

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