Thermal, biodegradation and theoretical perspectives on nanoscale confinement in starch/cellulose nanocomposite modified via green crosslinker

Thermal, biodegradation and theoretical perspectives on nanoscale confinement in starch/cellulose nanocomposite modified via green crosslinker

In this research work, we propose a synergistic effect of a green crosslinker and cellulose nanomaterial on the crystallinity, viscoelastic, and thermal properties of starch nanocomposites. A disaccharide derivative was used as a bio crosslinker and nanofiber from pineapple leaf as a reinforcing pha...

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Bibliographic Details
Published in:International journal of biological macromolecules Vol. 134; pp. 781 - 790
Main Authors: Balakrishnan, Preetha, Geethamma, V.G., Gopi, Sreerag, Thomas, Martin George, Kunaver, Matjaž, Huskić, Miroslav, Kalarikkal, Nandakumar, Volova, Tatiana, Rouxel, Didier, Thomas, Sabu
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-08-2019
Elsevier
Subjects:
Algorithms
Analytical chemistry
Biodegradation, Environmental
Cellulose - chemistry
Cellulose nanofiber
Chemical Sciences
Crosslinking
Material chemistry
Mechanical Phenomena
Microscopy, Atomic Force
Models, Theoretical
Nanocomposites - chemistry
Nanofibers - chemistry
or physical chemistry
Polymers
Spectroscopy, Fourier Transform Infrared
Starch - chemistry
Temperature
Theoretical and
Viscoelastic
Crosslinking
Viscoelastic
Cellulose nanofiber
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Summary:In this research work, we propose a synergistic effect of a green crosslinker and cellulose nanomaterial on the crystallinity, viscoelastic, and thermal properties of starch nanocomposites. A disaccharide derivative was used as a bio crosslinker and nanofiber from pineapple leaf as a reinforcing phase for starch. Sucrose was oxidised using periodate, that can selectively oxidise the vicinal hydroxyl group of sucrose and form tetra aldehyde derivative. Crystallinity of films after crosslinking decreased with successive addition of crosslinker. The melting temperature of films increased because of formation of more dense structure after crosslinking. Morphological investigations were analysed by atomic force microscopy. Polymer chain confinement and mechanics were quantified. The crosslink densities of the films were calculated using two models, phantom model and affine model, using storage modulus data. By using very low amount of crosslinker and nanoreinforcement, the properties of thermoplastic starch were significantly improved. [Display omitted]
Bibliography:ObjectType-Article-1
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content type line 23
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2019.05.088