Conductive Thermoplastic Polyurethane Nanocomposite Foams Derived from a Cellulose/MWCNTs Aerogel Framework: Simultaneous Enhancement of Piezoresistance, Strength, and Endurance - Publication - Bridge of Knowledge

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Conductive Thermoplastic Polyurethane Nanocomposite Foams Derived from a Cellulose/MWCNTs Aerogel Framework: Simultaneous Enhancement of Piezoresistance, Strength, and Endurance

Abstract

High conductivity and excellent mechanical properties of composite polymers favors their application as piezoresistive strain sensors. Nonetheless, it is difficult to develop composite polymers with desirable piezoresistance, mechanicaland durable properties. Herein, we developed conductive cellulose/MWCNTs aerogel using the freeze-drying technique. Besides, we explored the application of the highly-sensitive piezoresistive polymer following supercritical carbon dioxide (ScCO2) foaming, in cellulose/MWCNTs aerogel-thermoplastic polyurethane (TPU) nanocomposites. Due to the low density (~0.15 g/cm3) of cellulose/MWCNTs, high porosity (90%) and high electric conductivity (2.04 S/m, cellulose/MWCNTs= 1/10), the CPC foam exhibited a remarkable low percolation threshold (MWCNTs loading of ~0.07%) and high piezoresistive sensitivity (GF value of 7.84). Nevertheless, the microcellular structure of composite foam remains stable with regard to energy loss coefficient and piezoresistance after several compression cycles (1000 cycles). The behavior of the prepared composite foams under different conditions was also evaluated. Overall, the piezoresistive sensors can be used in real-time monitoring of human movement.

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Category:
Articles
Type:
artykuły w czasopismach
Published in:
Journal of Materials Chemistry C no. 9, pages 13103 - 13114,
ISSN: 2050-7526
Language:
English
Publication year:
2021
Bibliographic description:
Fei Y., Chen F., Fang W., Hejna A., Xu L., Liu T., Mingqiang Z., Yang J., Kuang T.: Conductive Thermoplastic Polyurethane Nanocomposite Foams Derived from a Cellulose/MWCNTs Aerogel Framework: Simultaneous Enhancement of Piezoresistance, Strength, and Endurance// Journal of Materials Chemistry C -Vol. 9,iss. 38 (2021), s.13103-13114
DOI:
Digital Object Identifier (open in new tab) 10.1039/d1tc02874j
Sources of funding:
Verified by:
Gdańsk University of Technology

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