Abstract
Self-assembly of immiscible polymer blend films during deposition presents an attractive avenue to fabricate structured multicomponent thin films. Depth profiles formed by self-stratification during spin-casting can be varied simply by modifying processing conditions, even on short time scales. However, the current practice of self-stratification utilizes polymer blends that are specific for optimizing properties of a desired application and provides little insight into the underlying driving forces that guide the process of stratification. Our research seeks to fill this gap by using neutron reflectivity to monitor the stratification of blends consisting of poly(3-hexylthiophene-2,5-diyl) (P3HT) and poly(methyl methacrylate) (PMMA) as a function of sample and processing condition: spin-casting speed, polymer blend composition, and polymer molecular weight. Each of these parameters was varied individually, and each parameter provided orthogonal control of the extent of stratification. An increase in the c...
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