Journal ArticleDOI
Surface Topography and Composition of Deuterated Polystyrene-Poly(bromostyrene) Blends
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TLDR
In this paper, surface structure, obtained from atomic force microscopy and X-ray reflectivity, and surface chemical analysis data, extracted from Xray photoelectron and static secondary ion mass spectroscopy, are reported for blends of poly(p-bromostyrene) with poly(deuteriostryrene).Abstract:
Surface structure, obtained from atomic force microscopy and X-ray reflectivity, and surface chemical analysis data, obtained from X-ray photoelectron and static secondary ion mass spectroscopy, are reported for blends of poly(p-bromostyrene) with poly(deuteriostyrene). When high speeds are used in the spin-coating process, the atomic force microscopy measurements reveal that the surface structure consists of islands, the distribution and number changing with the poly(bromostyrene) content. A ribbon structure is observed at just above 50% (w/w) poly(bromostyrene) in the mixture. These ribbons merge to form more continuous structures, leaving voids at higher concentrations. X-ray reflectivity data from the films were consistent with the topographical features observed with the AFM. At low spinning speeds, continuous films with little or no topographical structure are formed. The islands observed at high spinning speeds are predominately poly(bromostyrene) and reflect the importance of thermodynamic and kin...read more
Citations
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In vitro reaction of endothelial cells to polymer demixed nanotopography.
Matthew J. Dalby,Mathis O. Riehle,Heather J H Johnstone,Stanley Affrossman,Adam S. G. Curtis +4 more
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References
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Surface-directed spinodal decomposition.
TL;DR: In this article, the surface-directed spinodal decomposition waves are caused by the preferential attraction of poly(ethylenepropylene) to the surface, maintaining coherence for several wavelengths.
Journal ArticleDOI
Spinodal decomposition in thin films of a polymer blend
F. Bruder,R. Brenn +1 more
TL;DR: Spinodal decomposition in thin films of a blend of deuterated polystyrene and poly(styrene-co-4-bromostyrene) was studied with time-of-flight elastic-recoil detection and light microscopy and found different demixing behavior, depending on whether the films were prepared on the oxide layer of a silicon wafer or on a chromium-plated one.
Journal ArticleDOI
Ultrathinning-Induced Surface Phase Separation of Polystyrene/Poly(vinyl methyl ether) Blend Film
TL;DR: In this article, the phase-separation temperature of polystyrene/polyvinyl methyl ether (PS/PVME) blend films decreased with decreasing film thickness for thickness less than ca. 30 nm.
Journal ArticleDOI
Phase separation of polymer blends in thin films
TL;DR: In this article, the phase separation behavior of thin films on glass appears to be the result of two kinds of substrate-polymer interactions in addition to the geometrical effect: electrostatic interaction of the charged glass surface (a destabilizing effect at all film compositions) and selective adsorption of polystyrene on glass.
Journal ArticleDOI
Interference of Spinodal Waves in Thin Polymer Films
TL;DR: In this paper, the thickness dependence of spinodal decomposition in thin films of a binary polymeric mixture was studied, and the phase separation was found to be severely altered with respect to the thickness of the thin film behavior.