Received January 7, 2000

Abstract:

Previous studies had demonstrated that the T_g of polymer thin films is strongly dependent on the interactions, _s, between the polymer and the underlying substrate. We present a study of the glass transition temperature, T_g, in thin films of polystyrene, PS, as a function of film thickness and as a function of _s by measuring the change in the thermal expansion using X-ray reflectivity. The T_g for PS on native silicon oxide was found to decrease with decreasing film thickness, consistent with results by others. Using random copolymers of styrene and methyl methacrylate anchored to the substrate, _s could be varied by changing the styrene fraction, f. With a constant PS film thickness of 330 Å, the T_g was depressed by ~20 C as f was decreased from 1 to 0.75. An analysis analogous to the Gibbs-Thompson model indicated that the surface energy was not a suitable parameter to use to describe the effects of interfacial interactions on the T_g of polymer thin films. An associated local fractional change in the segment density at the substrate interface is instead proposed to describe the changes in T_g observed with different _s. Only a small change (<1.4%) in the density at the interface is required to produce a 20 C depression in T_g found in this experiment.

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