Polystyrene-Based Single-Walled Carbon Nanotube Nanocomposite Thin Films: Dynamics of Structural Instabilities

Thin polystyrene (PS) liquid films supported by oxidized silicon (SiOx/Si) substrates may be unstable or metastable, depending on the film thickness, h. In the metastable thickness regime, holes nucleate throughout the surface of the films and subsequently grow under the action of capillary forces. Recent studies show that the hole growth rate in thin PS films is suppressed with the addition of small concentrations of C60 fullerenes, due to pinning at the line of contact. We examined the hole growth dynamics in thin film polystyrenes with functionalized single-walled carbon nanotubes (PS-SWNT) supported by SiOx/Si substrates. The hole growth velocities in PS films containing 0.75 wt % functionalized single-walled nanotubes, VPS-SWNT, were appreciably slower than VPS, the hole-growth velocities of holes in polystyrene films of the same thickness. Moreover, VPS-SWNT and VPS decreased with decreasing film thickness, for h < 50 nm, with thickness dependencies which exceed theoretical predictions. In addition,...