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High-Speed Sirospun Conductive Yarn for Stretchable Embedded Knitted Circuit and Self-Powered Wearable Device

by Niu, Li , Wang, Jin , Jiang, Gaoming , Pan, Heng , Ma, Pibo , Wang, Kai , Chen, Chaoyu

in Chemistry and Materials Science / Circuits / Core-shell structure / Cotton / Deformation / Design / Efficiency / Electronics / Flexibility / Gesture recognition / High speed / Materials Engineering / Materials Science / Materials selection / Nanogenerators / Nanoscale Science and Technology / Needlework / Polymer Sciences / Portable equipment / Production methods / Renewable and Green Energy / Research Article / Screen printing / Softness / Stainless steel / Stretchability / Textile Engineering / Textile fibers / Wearable computers / Wearable technology / Wire / Yarn / Yarns

2023

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High-Speed Sirospun Conductive Yarn for Stretchable Embedded Knitted Circuit and Self-Powered Wearable Device

by Niu, Li , Wang, Jin , Jiang, Gaoming , Pan, Heng , Ma, Pibo , Wang, Kai , Chen, Chaoyu

2023

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High-Speed Sirospun Conductive Yarn for Stretchable Embedded Knitted Circuit and Self-Powered Wearable Device

by Niu, Li , Wang, Jin , Jiang, Gaoming , Pan, Heng , Ma, Pibo , Wang, Kai , Chen, Chaoyu

2023

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Journal Article

High-Speed Sirospun Conductive Yarn for Stretchable Embedded Knitted Circuit and Self-Powered Wearable Device

Niu, Li,

Wang, Jin,

Jiang, Gaoming,

Pan, Heng,

Ma, Pibo,

Wang, Kai,

Chen, Chaoyu

2023

Overview

In the intelligent era, the textile technique is a high efficiency, mature and simple manufacturing solution capable of fabricating fully flexible wearable devices. However, the external circuit with its integration and comfort limitations cannot satisfy the requirements of intelligent wearable and portable devices. This study presents an industrialized production method to fabricate core–shell structure conductive yarn for direct textile use, prepared by the high-speed sirospun technique. Both integration and flexibility are significantly improved over previous works. Combining sirospun conductive yarn (SSCY) and the intarsia technique can provide the SSCY seamless and convenient embedded knitted circuit (SSCY-EKC) to form a full textile electrical element as the channel of power and signals transmission, allowing for a stable resistance change and wide strain range for meeting practical applications. SSCY based on the triboelectric nanogenerator (SSCY-TENG) can be designed as a caution carpet with attractive design and good washability for a self-powered sensor that recognizes human motions. Furthermore, intrinsic textile properties such as washability, softness, and comfort remained. With benefits such as excellent extension, fitting, and stretchability, the SSCY-EKC used herein can realize a fully flexible electrical textile with a high potential for physical detection, body gesture recognition, apparel fashion, and decoration. Graphical abstract

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Publisher

Springer Nature Singapore,Springer Nature B.V

Subject

Chemistry and Materials Science

/ Circuits

/ Core-shell structure

/ Cotton

/ Deformation

/ Design

/ Efficiency