Supramolecular Materials Based On Hydrogen-Bonded Polymers

Combining supramolecular principles with block copolymer self-assembly offers unique possibilitiesto create materials with responsive and/or tunable properties. The present chapter focuses on supramolecularmaterials based on hydrogen bonding and (block co-) polymers. Several cases will be discussed...

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Hauptverfasser:	ten Brinke, Gerrit, Ruokolainen, Janne, Ikkala, Olli
Format:	Buchkapitel
Sprache:	eng
Schlagworte:	Applied sciences Block copolymers Exact sciences and technology Hydrogen bonding Organic polymers Physicochemistry of polymers Polymers Properties and characterization Responsivity Self-assembly Solution and gel properties Structure, morphology and analysis Tunability
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creator	ten Brinke, Gerrit Ruokolainen, Janne Ikkala, Olli
description	Combining supramolecular principles with block copolymer self-assembly offers unique possibilitiesto create materials with responsive and/or tunable properties. The present chapter focuses on supramolecularmaterials based on hydrogen bonding and (block co-) polymers. Several cases will be discussed where theself-assembled nanostructured morphology can be easily tuned using composition as the natural variable.A large body of the material reviewed concerns hydrogen-bonded side-chain (block co-) polymers. Sidechains both with and without mesogenic units are discussed. Frequently the thermoreversibility of the hydrogenbonds allows for responsiveness of material properties to external stimuli such as temperature, pH, andelectromagnetic fields. Temperature-dependent photonic bandgap, temperature-dependent proton conductivity,pH-erasable multilayers, temperature-induced volume transitions, and fast AC electric field-induced orientationalswitching of microdomains are the main examples.
doi_str_mv	10.1007/12_2006_111
format	Book Chapter
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subjects	Applied sciences Block copolymers Exact sciences and technology Hydrogen bonding Organic polymers Physicochemistry of polymers Polymers Properties and characterization Responsivity Self-assembly Solution and gel properties Structure, morphology and analysis Tunability
title	Supramolecular Materials Based On Hydrogen-Bonded Polymers
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