Abstract

We investigate the creation of large area mesoscale structures by controlling the dewetting pathways of thin polymer films on physically heterogeneous substrates comprising a two-dimensional (2-D) array of square pillars. Depending on the initial configuration and thickness of the film, dewetting produces a variety of both ordered and disordered structures. The substrate pattern strongly influences the dewetting pathways as well as the organization and size of the polymer structures. The key findings are: (i) the lateral confinement imposed by the substrate pattern can reduce the length-scale of the dewetted structure by one to two orders of magnitude as compared to dewetting on the same homogeneous substrate. (ii) When the polymer film is thin ( 40 nm), dewetting progresses by nucleation of large holes, uncorrelated to the substrate pattern. The dewetted pattern in this case forms on multiple length-scales consisting of ∼10 μm droplets resulting from the coalescence of the holes and small (<1 μm) droplets at the interstitial locations due to stick–slip of the retracting contact line.

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