Impact of π-conjugated gradient sequence copolymers on polymer blend morphology

A gradient sequence copolymer containing 3-hexylthiophene (3HT) and 3-(6-bromohexyl)thiophene (3BrHT) with a linear change in comonomer composition was synthesized viaa controlled, chain-growth semi-batch method. For comparison, random and block copolymers with the same molecular weight and comonome...

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Veröffentlicht in:	Polymer chemistry 2013-09, Vol.4 (17), p.4606-4611
Hauptverfasser:	Palermo, Edmund F., van der Laan, Harry L., McNeil, Anne J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Blends Block copolymers Compatibility Copolymers Molecular weight Morphology Polymer blends Thin films
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container_title	Polymer chemistry
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creator	Palermo, Edmund F. van der Laan, Harry L. McNeil, Anne J.
description	A gradient sequence copolymer containing 3-hexylthiophene (3HT) and 3-(6-bromohexyl)thiophene (3BrHT) with a linear change in comonomer composition was synthesized viaa controlled, chain-growth semi-batch method. For comparison, random and block copolymers with the same molecular weight and comonomer ratio (1 : 1) were prepared. All three copolymers exhibited similar molecular weight (M sub(n) similar to 32 kDa), low dispersity (D< 1.2) and high regioregularity (>99%), suggesting that any differences among the three copolymers can be attributed to the different copolymer sequences. The optical and thermal properties, as well as the thin film morphologies, of the gradient copolymer were compared to the random and block copolymers and the physical blend of the homopolymers. The physical blends showed extensive micron-scale phase separation by AFM and TEM. Adding the gradient copolymer to the blend resulted in a dramatic reduction in the domain size. Moreover, the domain size decreased as the amount of the gradient copolymer increased, suggesting that the copolymer is compatibilizing the polymer blend. By comparison, the random and block copolymers were less effective compatibilizing agents, which indicates that the gradient sequence copolymer is well suited to tailor the morphology of immiscible polymer blends.
doi_str_mv	10.1039/c3py00601h
format	Article
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For comparison, random and block copolymers with the same molecular weight and comonomer ratio (1 : 1) were prepared. All three copolymers exhibited similar molecular weight (M sub(n) similar to 32 kDa), low dispersity (D< 1.2) and high regioregularity (>99%), suggesting that any differences among the three copolymers can be attributed to the different copolymer sequences. The optical and thermal properties, as well as the thin film morphologies, of the gradient copolymer were compared to the random and block copolymers and the physical blend of the homopolymers. The physical blends showed extensive micron-scale phase separation by AFM and TEM. Adding the gradient copolymer to the blend resulted in a dramatic reduction in the domain size. Moreover, the domain size decreased as the amount of the gradient copolymer increased, suggesting that the copolymer is compatibilizing the polymer blend. 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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Blends Block copolymers Compatibility Copolymers Molecular weight Morphology Polymer blends Thin films
title	Impact of π-conjugated gradient sequence copolymers on polymer blend morphology
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