Peer-Reviewed Journal Details
Mandatory Fields
Amarandei, G,Clancy, I,O'Dwyer, C,Arshak, A,Corcoran, D
2014
December
ACS Applied Materials & Interfaces
Stability of Ultrathin Nanocomposite Polymer Films Controlled by the Embedding of Gold Nanoparticles
Published
()
Optional Fields
thin polymer films nanoparticles dewetting embedding GLASS-TRANSITION TEMPERATURE SURFACE GROWTH DEPOSITION KINETICS ENERGY
6
20758
20767
Thin and ultrathin polymer films combined with nanoparticles (NPs) are of significant interest as they are used in a host of industrial applications. In this paper we describe the stability of such films (h(poly) <= 30 nm) to dewetting, specifically, how the development of a spinodal instability in a composite NPpolymer layer is controlled by the embedding of Au NPs. At working temperatures (T = 170 degrees C) above the polymer glass transition temperature (T-g approximate to 100 degrees C) the absence of Au NPs leads to film rupture by nucleation dewetting, while their presence over a large surface area enhances the development of a spinodal instability without destroying the film continuity. When the NPs embed, the surface undulations are suppressed. The dynamics change from an unstable to a stable state, and the thin composite NP-polymer layer returns to a flat configuration, while the wavelength of the pattern remains constant. Moreover, we demonstrate from a thermodynamic perspective that NPs will remain on the surface or embed in the polymer film depending on their free energy, which is determined by the NP interactions with the underlying polymer, the native SiOx layer, and the Si substrate.
10.1021/am5049543
Grant Details