Issue 19, 2004

Hierarchical self-assembly in polymeric complexes: Towards functional materials

Abstract

Combination of self-assembly at different length scales leads to structural hierarchies. It offers rich possibilities to construct nanostructured matter, nanoscale parts, and switching (responsive) properties based on the phase transitions of the self-assembled structures. Complexation of oligomeric amphiphiles to polymers using ionic interactions, coordination, or hydrogen bonding leads to polymeric comb-shaped supramolecules (complexes), which self-assemble at a length scale of a few nm. Self-assembly at an order of magnitude larger length scale is provided by block copolymers, and combination of the latter two concepts leads to structural hierarchies. They provide e.g. templates for mesoporous materials and nano-objects, and allow switching conductivity and switching optical properties. Structural hierarchies are also observed by complexing moderately monodisperse polymeric rods with amphiphiles. Finally, self-assembly at even a larger length scale upon using colloidal particles may be combined to the above structures, as encouraged by recent observations.

Graphical abstract: Hierarchical self-assembly in polymeric complexes: Towards functional materials

Article information

Article type
Feature Article
Submitted
17 Mar 2004
Accepted
07 Jun 2004
First published
16 Sep 2004

Chem. Commun., 2004, 2131-2137

Hierarchical self-assembly in polymeric complexes: Towards functional materials

O. Ikkala and G. ten Brinke, Chem. Commun., 2004, 2131 DOI: 10.1039/B403983A

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