Chitosan Membranes Exhibiting Shape Memory Capability by the Action of Controlled Hydration

last updated: 2014-09-11
TitleChitosan Membranes Exhibiting Shape Memory Capability by the Action of Controlled Hydration
Publication TypePapers in Scientific Journals
Year of Publication2014
AuthorsCorreia C., Caridade S. G., and Mano J. F.
EditorsBöker A.
Abstract

Chitosan membranes can undergo a glass transition at room temperature triggered by hydration. The mechanical properties of the membranes were followed by a tension test and dynamic mechanical analysis (DMA), with the sample in wet conditions after being immersed in varying compositions of water/ethanol mixtures. Results show that with the increasing of water content, the Young’s and storage modulus decrease systematically. For water contents of ca. 35 vol%, chitosan (CHT) exhibits a glass transition, showing an elastomeric plateau in the elastic modulus above this hydration level and the occurrence of a peak in the loss factor. Due to the semi-crystalline nature of CHT, membranes of this biomaterial present a shape memory capability induced by water uptake. By fixation of the permanent shape by further covalent cross-linking, the membranes can have different permanent shapes appropriate for different applications, including in the biomedical area.

JournalPolymers
Volume6
Issue4
Pagination1178-1186
Date Published2014-04-17
PublisherMDPI - Open Access Publishing
ISSN2073-4360
DOI10.3390/polym6041178
URLhttp://www.mdpi.com/2073-4360/6/4/1178
KeywordsBiomaterials, biopolymers, Glass transition dynamics, shape memory, smart systems
RightsopenAccess
Peer reviewedyes
Statuspublished

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