Wei Wu scite author profile

Developing moisture-sensitive artificial muscles from industrialized natural fibers with large abundance is highly desired for smart textiles that can respond to humidity or temperature change. However, currently most of fiber artificial muscles are based on non-common industrial textile materials or of a small portion of global textile fiber market. In this paper, we developed moisture-sensitive torsional artificial muscles and textiles based on cotton yarns. It was prepared by twisting the cotton yarn followed by folding in the middle point to form a self-balanced structure. The cotton yarn muscle showed a torsional stroke of 42.55 °/mm and a rotational speed of 720 rpm upon exposure to water moisture. Good reversibility and retention of stroke during cyclic exposure and removal of water moisture were obtained. A moisture-sensitive smart window that can close when it rains was demonstrated based on the torsional cotton yarn muscles. This twist-based technique combining natural textile fibers provides a new insight for construction of smart textile materials.

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Carbon nanotubes grown on the inner wall of carbonized wood tracheids for high-performance supercapacitors

Zhang

et al. 2019

Carbon

125

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Synthesis and characterizations of graphene–copper nanocomposites and their antifriction application

Zhao

et al. 2014

Journal of Industrial and Engineering Chemistry

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Wei Wu

Preparation and characterizations of Cu2O/reduced graphene oxide nanocomposites with high photo-catalytic performances

High performance flexible supercapacitors based on porous wood carbon slices derived from Chinese fir wood scraps

Moisture-sensitive torsional cotton artificial muscle and textile*

Carbon nanotubes grown on the inner wall of carbonized wood tracheids for high-performance supercapacitors

Synthesis and characterizations of graphene–copper nanocomposites and their antifriction application

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