Title:
Micellization of Miktoarm Star SnIn Copolymers in Block Copolymer/Homopolymer Blends
Languages of Item:
English
Abstract:
Aseries of miktoarm (polystyrene)n(polyisoprene)n, SnIn, star-block copolymers, comprising n equal arms of polystyrene and n equal arms of polyisoprene, is utilized to investigate the effect of macromolecular architecture on the characteristics of the micelles formed by the copolymers in a polyisoprene homopolymer matrix at various concentrations 0.05-2 wt%. The characteristics of the micelles are studied with small-angle X-ray scattering (SAXS) as a function of the functionality of the star copolymer n. The radius of the micellar core is found to be independent of n, the aggregation number decreases with increasing n exhibiting a n -1 power law dependence, while the volume fraction of copolymer chains participating in micelles is constant; these imply that the junction point of the copolymer does not affect the micellization process in any significant way. A simple thermodynamic model is developed following the methodology of Leibler in order to describe theoretically the micellization of AnBn copolymers in a B homopolymer matrix. The predictions of the model are in quantitative agreement with the experimental results, thus signifying that the assumptions of the simple model are valid. © 2009 American Chemical Society.
Authors:
E. Pavlopoulou
S. H. Anastasiadis
H. Iatrou
M. Moshakou
N. Hadjichristidis
G. Portale
W. Bras
Publisher:
American Chemical Society (ACS)
Keywords:
Aggregation numbers; Copolymer chains; Homopolymer; Junction point; Macromolecular architecture; matrix; Micellar core; Micellization process; Power-law dependences; Quantitative agreement; Simple model; Small angle X-ray scattering; Star copolymers; Star-block copolymers; Thermodynamic model, Block copolymers; Copolymerization; Macromolecules; Micelles; Micellization; Polystyrenes; X ray scattering, Plastic products
Main subject category:
Science
Official URL (Publisher):
