Abstract
The issue of how significantly and over what length scales stiffness or modulus can be modified by the presence of a substrate or nanoparticle interface is important in the design and performance of polymer nanocomposites and nanostructured polymers. Here, we provide the first comparison of stiffness gradient length scales in polymeric materials characterized by two techniques: fluorescence spectroscopy (which is sensitive to molecular caging and hence to modulus) and AFM (which, coupled with finite element analysis, provides a direct determination of modulus). After cooling samples from 140 °C at 1 °C/min, characterization is done at room temperature on model nanocomposites in which a polystyrene (PS) film is supported on both sides by glass substrates. In confined model nanocomposites, the local stiffness enhancement relative to bulk is the result of perturbations from both substrate interfaces. In a 266 nm thick PS model nanocomposite, perturbations to modulus extend ∼200 nm from each interface in a no...
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