Morphology of Chitosan-Based Hollow Cylindrical Materials with a Layered Structure

The surface morphology and supramolecular structure of chitosan-based hollow cylindrical structures (microtubes) obtained by wet and dry–wet spinning were studied with the use of salting-out agents of various chemical nature by scanning electron microscopy. All samples are characterized by a layer-o...

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Bibliographic Details
Published in:BioNanoScience 2018-06, Vol.8 (2), p.661-667
Main Authors: Gegel, Natalia, Babicheva, Tatyana, Shipovskaya, Anna
Format: Article
Language:English
Subjects:
Biological and Medical Physics
Biomaterials
Biophysics
Chemical reactions
Chitosan
Circuits and Systems
Deformation mechanisms
Engineering
Mechanical properties
Morphology
Nanotechnology
Organic chemistry
Plastic deformation
Plastics
Polymers
Reagents
Salting
Scanning electron microscopy
Spinning (materials)
Strain
Stretching
Wet spinning
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Summary:The surface morphology and supramolecular structure of chitosan-based hollow cylindrical structures (microtubes) obtained by wet and dry–wet spinning were studied with the use of salting-out agents of various chemical nature by scanning electron microscopy. All samples are characterized by a layer-oriented porous structure, whose morphological features are determined by the spinning process and the chemical nature of the reagent for the polymer conversion polysalt → polybase reaction. An explanation of the formation of this layered structure is proposed within the framework of the Liesegang phenomenon. The influence of the nature of the salting-out agent on the mechanism of the chemical reaction and the polymer material structure was assessed. All microtube samples are shown to be characterized by anisotropy of their mechanical properties. When stretching in the longitudinal direction, an almost linear load–strain relationship is observed with the elastic component predominance, while stretching in the transverse direction yields a nonlinear one with the predominance of plastic deformation.
ISSN:2191-1630
2191-1649
DOI:10.1007/s12668-017-0415-1