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Ultrafast charge and discharge biscrolled yarn supercapacitors for textiles and microdevices

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posted on 2024-11-16, 05:45 authored by Jae Ah Lee, Min-Kyoon Shin, Shi Hyeong Kim, Hyun U Cho, Geoffrey SpinksGeoffrey Spinks, Gordon WallaceGordon Wallace, Marcio D Lima, Xavier Lepro, Mikhail E Kozlov, Ray H Baughman, Seon Jeong Kim
Flexible, wearable, implantable and easily reconfigurable supercapacitors delivering high energy and power densities are needed for electronic devices. Here we demonstrate weavable, sewable, knottable and braidable yarns that function as high performance electrodes of redox supercapacitors. A novel technology, gradient biscrolling, provides fastion-transport yarn in which hundreds of layers of conducting-polymer-infiltrated carbon nanotube sheet are scrolled into similar to 20 mu m diameter yarn. Plying the biscrolled yarn with a metal wire current collector increases power generation capabilities. The volumetric capacitance is high (up to similar to 179 Fcm(-3)) and the discharge current of the plied yarn supercapacitor linearly increases with voltage scan rate up to similar to 80 Vs(-1) and similar to 20 Vs(-1) for liquid and solid electrolytes, respectively. The exceptionally high energy and power densities for the complete supercapacitor, and high cycle life that little depends on winding or sewing (92%, 99% after 10,000 cycles, respectively) are important for the applications in electronic textiles.

Funding

ARC Centre of Excellence - Australian Centre for Electromaterials Science

Australian Research Council

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New dimensions in organic bionics

Australian Research Council

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History

Citation

Lee, J. Ah., Shin, M., Kim, S., Cho, H. U., Spinks, G. Maxwell., Wallace, G. G., Lima, M. D., Lepro, X., Kozlov, M. E., Baughman, R. H. & Kim, S. (2013). Ultrafast charge and discharge biscrolled yarn supercapacitors for textiles and microdevices. Nature Communications, 4 (June), 1-8.

Journal title

Nature Communications

Volume

4

Language

English

RIS ID

82623

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