Hierarchical self-organization in polyelectrolyte-surfactant complexes based on heteroarm star block copolyampholytes

Hammond, Matthew R.; Li, Chaoxu; Tsitsilianis, Constantinos; Mezzenga, Raffaele

doi:10.1039/b817219f

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Journal article

Hierarchical self-organization in polyelectrolyte-surfactant complexes based on heteroarm star block copolyampholytes

Hammond, Matthew R. Department of Physics and Fribourg Center for Nanomaterials, University of Fribourg, Switzerland
Li, Chaoxu Department of Physics and Fribourg Center for Nanomaterials, University of Fribourg, Switzerland
Tsitsilianis, Constantinos Institute of Chemical Engineering and High-Temperature Chemical Processes, ICE/HT-FORTH, University of Patras, Greece
Mezzenga, Raffaele Department of Physics and Fribourg Center for Nanomaterials, University of Fribourg, Switzerland

21.01.2009

Published in:

Soft Matter. - 2009, vol. 5, no. 12, p. 2371-2377

English A novel heteroarm star block terpolymer bearing short polystyrene (PS) arms and an equal number of longer poly(2-vinylpyridine)-block-poly(acrylic acid) (P2VP-b-PAA) arms was used as the macromolecular template component in polyelectrolyte-surfactant supramolecular complexes. The ampholytic nature of this novel star block copolymer allowed complexation to be carried out on either the P2VP blocks (with negatively charged surfactants) or on the PAA blocks (with positively charged surfactants), depending only on the pH at which the complexation reaction was carried out. The various complexes displayed self-organization on both the length scale of the polyelectrolyte-surfactant complexes (ca. 3.5–4 nm) and on the length scale of the overall heteroarm star block copolymer (18–39 nm, depending on which block had been complexed). Addition of surfactants to one block versus the other results in dramatically different morphologies; when the P2VP blocks are complexed, close-packed spheres are observed, while when the PAA blocks are complexed, the material forms core-shell cylinders (PS and P2VP composing the core and shell, respectively) in a matrix of PAA(surfactant). The morphologies are discussed by combining both real-space techniques, such as transmission electron miscroscopy, and reciprocal space techniques, such as X-ray scattering at small and large angles.

Faculty

Faculté des sciences et de médecine

Department

Département de Physique

Language

English

Classification

Physics

License

License undefined

Identifiers

RERO DOC 12691
DOI 10.1039/b817219f

Persistent URL

https://folia.unifr.ch/unifr/documents/301333

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