Study of electrothermal properties of silver nanowire/polydopamine/cotton-based nanocomposites

In this study, cotton fabrics were reported to be typically functionalized by loading silver nanowires (AgNW) on the surface of the polydopamine modified cotton fabric. Firstly, AgNW were prepared by a polyol method and then a polydopamine-modified cotton fabric was prepared by being immersed in AgN...

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Veröffentlicht in:	Cellulose (London) 2019-07, Vol.26 (10), p.5995-6007
Hauptverfasser:	Chen, Zhiliang, Yu, Weidong, Du, Zhaoqun
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Sprache:	eng
Schlagworte:	Bioorganic Chemistry Ceramics Chemistry Chemistry and Materials Science Composite materials Composites Cotton Cotton fabrics Dip coatings Electric potential Glass Immersion coating Nanocomposites Nanowires Natural Materials Organic Chemistry Original Research Physical Chemistry Polymer Sciences Sustainable Development
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creator	Chen, Zhiliang Yu, Weidong Du, Zhaoqun
description	In this study, cotton fabrics were reported to be typically functionalized by loading silver nanowires (AgNW) on the surface of the polydopamine modified cotton fabric. Firstly, AgNW were prepared by a polyol method and then a polydopamine-modified cotton fabric was prepared by being immersed in AgNW dispersion by the dip-coating method. The resulting silver nanowire/polydopamine/cotton-based nanocomposites (APCN) has a surface specific resistance as low as 2.4 Ω and has good durability and flexibility. In addition, the electrothermal properties of APCN were investigated by applied voltage. The result showed that the composite material can reach 80 °C in a short time under the voltage of 1.8 V, and conform to the power balance model. The steady-state temperature of the composite material is closely related to the voltage, and has a quadratic relationship with the voltage and expresses linear relation with the electric power. Graphical abstract
doi_str_mv	10.1007/s10570-019-02506-w
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Firstly, AgNW were prepared by a polyol method and then a polydopamine-modified cotton fabric was prepared by being immersed in AgNW dispersion by the dip-coating method. The resulting silver nanowire/polydopamine/cotton-based nanocomposites (APCN) has a surface specific resistance as low as 2.4 Ω and has good durability and flexibility. In addition, the electrothermal properties of APCN were investigated by applied voltage. The result showed that the composite material can reach 80 °C in a short time under the voltage of 1.8 V, and conform to the power balance model. The steady-state temperature of the composite material is closely related to the voltage, and has a quadratic relationship with the voltage and expresses linear relation with the electric power. 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subjects	Bioorganic Chemistry Ceramics Chemistry Chemistry and Materials Science Composite materials Composites Cotton Cotton fabrics Dip coatings Electric potential Glass Immersion coating Nanocomposites Nanowires Natural Materials Organic Chemistry Original Research Physical Chemistry Polymer Sciences Sustainable Development
title	Study of electrothermal properties of silver nanowire/polydopamine/cotton-based nanocomposites
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