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Conducting gel-fibres based on carrageenan, chitosan and carbon nanotubes

journal contribution
posted on 2024-11-16, 10:10 authored by Alberto Granero, Joselito Razal, Gordon WallaceGordon Wallace, Peter in het PanhuisPeter in het Panhuis
A simple continuous flow wet-spinning method for assembling fibres consisting of two oppositely charged biopolymers (chitosan and carrageenan) and carbon nanotubes is reported. It was observed that the order in which the biopolymers are added, i.e. spinningchitosan into one of the carrageenans (or vice versa), affects the fibre composition as well as the resulting electrical and mechanical properties. The addition of carbon nanotubes into the fibres was found to improve Young's modulus values coupled with a significant improvement in the electrical conductivity by up to 6 orders of magnitude.

Funding

Nanobionics

Australian Research Council

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Wet-Spinning Novel Multi-Functional Bio-Synthetic Platforms

Australian Research Council

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History

Citation

Granero , A. J., Razal, J. M., Wallace, G. G. & in het Panhuis, M. (2010). Conducting gel-fibres based on carrageenan, chitosan and carbon nanotubes. Journal of Materials Chemistry, 20 (37), 7953-7956.

Journal title

Journal of Materials Chemistry

Volume

20

Issue

37

Pagination

7953-7956

Language

English

RIS ID

33913

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