2001
DOI: 10.1007/s101890170076
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Hydrodynamic-flow-driven phase evolution in a polymer blend film modified by diblock copolymers

Abstract: We have studied surface-directed phase separation in thin films of deuterated polystyrene and poly(bromostyrene) (with 22.7% of monomers brominated) using 3 He nuclear reaction analysis, dynamic secondary ion mass spectroscopy and atomic force microscopy combined with preferential dissolution. The crossover from competing to neutral surfaces of the critical blend film (cast onto Au) was commenced: polyisoprene-polystyrene diblock copolymers were added and segregated to both surfaces reducing in a tuneable mann… Show more

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Cited by 17 publications
(38 citation statements)
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“…by changing the chemical nature of the substrate [9,11] Approaches using mixed SAMs [67] or end-grafted random copolymer brushes [68], both with variable composition, were used to tune the effective interactions between polymers and the substrate. A controlled variation of both effective surface fields was achieved by adding surface-active copolymers to the mixtures [10,12,69]. The co-polymers segregate predominantly to both surfaces of the blend film and reduce the fraction of the surface area exerting ordering interactions.…”
Section: A Surface/polymers Interactions Tuned By Surface-active DImentioning
confidence: 99%
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“…by changing the chemical nature of the substrate [9,11] Approaches using mixed SAMs [67] or end-grafted random copolymer brushes [68], both with variable composition, were used to tune the effective interactions between polymers and the substrate. A controlled variation of both effective surface fields was achieved by adding surface-active copolymers to the mixtures [10,12,69]. The co-polymers segregate predominantly to both surfaces of the blend film and reduce the fraction of the surface area exerting ordering interactions.…”
Section: A Surface/polymers Interactions Tuned By Surface-active DImentioning
confidence: 99%
“…The co-polymers segregate predominantly to both surfaces of the blend film and reduce the fraction of the surface area exerting ordering interactions. Here we will discuss briefly this versatile approach to control the self-stratification process [10,12].…”
Section: A Surface/polymers Interactions Tuned By Surface-active DImentioning
confidence: 99%
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