Pattern-directed to isotropic dewetting transition in polymer films on micropatterned surfaces with differential surface energy contrast
- 19 January 2007
- journal article
- Published by Royal Society of Chemistry (RSC) in Soft Matter
- Vol. 3 (5), 613-618
- https://doi.org/10.1039/b608630f
Abstract
Surface chemical patterns can both cause and direct dewetting in overlying thin polymer films. In this paper we focus on a key factor in this phenomenon, the magnitude of the surface energy difference between surface pattern domains (Δγ). To probe the influence of Δγ on film dewetting, we utilize novel combinatorial test patterns exhibiting a gradient in Δγ. Specifically, our test patterns consist of a series of micron-scale striped regions that continuously change in their surface energy (γ) relative to background striped regions having a fixed and calibrated γ. Using polystyrene (PS) films as a demonstration case, we employ these test patterns to quantify the morphology and kinetics of dewetting as Δγ diminishes. Our study indicates a transition from pattern-directed to isotropic PS dewetting at critical Δγ values. For Δγ > 14 mJ m−2, ordered droplet arrays are formed, while for Δγ < 7 mJ m−2, the dewetting is isotropic. A competition between these limiting behaviors is found for a “crossover regime”, 7 mJ m−2 < Δγ < 14 mJ m−2. These combinatorial test patterns provide a powerful approach for investigating the large number of parameters that govern the stability of ultrathin polymer films, and the physical factors that influence the dewetted film morphology.This publication has 25 references indexed in Scilit:
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