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High-efficiency super-elastic liquid metal based triboelectric fibers and textiles.


ABSTRACT: Fibers that harvest mechanical energy via the triboelectric effect are excellent candidates as power sources for wearable electronics and functional textiles. Thus far however, their fabrication remains complex, and exhibited performances are below the state-of-the-art of 2D planar configurations, making them impractical. Here, we demonstrate the scalable fabrication of micro-structured stretchable triboelectric fibers with efficiencies on par with planar systems. We use the thermal drawing process to fabricate advanced elastomer fibers that combine a micro-textured surface with the integration of several liquid metal electrodes. Such fibers exhibit high electrical outputs regardless of repeated large deformations, and can sustain strains up to 560%. They can also be woven into deformable machine-washable textiles with high electrical outputs up to 490?V, 175?nC. In addition to energy harvesting, we demonstrate self-powered breathing monitoring and gesture sensing capabilities, making this triboelectric fiber platform an exciting avenue for multi-functional wearable systems and smart textiles.

SUBMITTER: Dong C 

PROVIDER: S-EPMC7363815 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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High-efficiency super-elastic liquid metal based triboelectric fibers and textiles.

Dong Chaoqun C   Leber Andreas A   Das Gupta Tapajyoti T   Chandran Rajasundar R   Volpi Marco M   Qu Yunpeng Y   Nguyen-Dang Tung T   Bartolomei Nicola N   Yan Wei W   Sorin Fabien F  

Nature communications 20200715 1


Fibers that harvest mechanical energy via the triboelectric effect are excellent candidates as power sources for wearable electronics and functional textiles. Thus far however, their fabrication remains complex, and exhibited performances are below the state-of-the-art of 2D planar configurations, making them impractical. Here, we demonstrate the scalable fabrication of micro-structured stretchable triboelectric fibers with efficiencies on par with planar systems. We use the thermal drawing proc  ...[more]

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