Structuring of polymer solutions upon solvent evaporation
Publication date
2015-02-18
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Abstract
The morphology of solution-cast, phase-separated polymers becomes finer with increasing solvent evaporation rate. We address this observation theoretically for a model polymer where demixing is induced by steady solvent evaporation. In contrast to what is the case for a classical, thermal quench involving immiscible blends, the spinodal instability initially develops slowly and the associated length scale is not time invariant but decreases with time as t(-1/2). After a time lag, phase separation accelerates. Time lag and characteristic length exhibit power-law behavior as a function of the evaporation rate with exponents of -2/3 and -1/6. Interestingly, at later stages the spinodal structure disappears completely while a second length scale develops. The associated structure coarsens but does not follow the usual Lifshitz-Slyozov-Wagner kinetics.
Keywords
PHASE-SEPARATION PROCESSES, SPINODAL DECOMPOSITION, SOLAR-CELLS, BLENDS, MORPHOLOGY, FILMS, THIN, MIXTURES, SIMULATION, EVOLUTION
Citation
Schaefer, C, van der Schoot, P & Michels, J J 2015, 'Structuring of polymer solutions upon solvent evaporation', Physical Review E - Statistical, Nonlinear, and Soft Matter Physics, vol. 91, no. 2, 022602. https://doi.org/10.1103/PhysRevE.91.022602