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Weavable asymmetric carbon nanotube yarn supercapacitor for electronic textiles

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posted on 2024-11-16, 05:02 authored by Changsoon Choi, Jong Park, Keon Jung Kim, Duck Lee, Monica Jung de Andrade, Shi Hyeong Kim, Sanjeev GambhirSanjeev Gambhir, Geoffrey SpinksGeoffrey Spinks, Ray H Baughman, Seon Jeong Kim
Asymmetric supercapacitors are receiving much research interests due to their wide operating potential window and high energy density. In this study, we report the fabrication of asymmetrically configured yarn based supercapacitor by using liquid-state biscrolling technology. High loading amounts of reduced graphene oxide anode guest (90.1 wt%) and MnO 2 cathode guest (70 wt%) materials were successfully embedded into carbon nanotube yarn host electrodes. The resulting asymmetric yarn supercapacitor coated by gel based organic electrolyte (PVDF-HFP-TEA·BF 4 ) exhibited wider potential window (up to 3.5 V) and resulting high energy density (43 μW h cm -2 ). Moreover, the yarn electrodes were mechanically strong enough to be woven into commercial textiles. The textile supercapacitor exhibited stable electrochemical energy storage performances during dynamically applied deformations.

Funding

Mechanical advantage: biomimetic artificial muscles for micro-machines

Australian Research Council

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Citation

Choi, C., Park, J. Woo., Kim, K. Jung., Lee, D. Weon., de Andrade, M., Kim, S., Gambhir, S., Spinks, G. M., Baughman, R. H. & Kim, S. Jeong. (2018). Weavable asymmetric carbon nanotube yarn supercapacitor for electronic textiles. RSC Advances: an international journal to further the chemical sciences, 8 (24), 13112-13120.

Journal title

RSC Advances

Volume

8

Issue

24

Pagination

13112-13120

Language

English

RIS ID

126703

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