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A High Performance Stretchable Asymmetric Fiber‐Shaped Supercapacitor with a Core‐Sheath Helical Structure
Authors:Jiali Yu  Weibang Lu  Joseph P. Smith  Karl S. Booksh  Linghui Meng  Yudong Huang  Qingwen Li  Joon‐Hyung Byun  Youngseok Oh  Yushan Yan  Tsu‐Wei Chou
Affiliation:1. School of Chemical Engineering and Technology, Harbin Institute of Technology, Harbin, P. R. China;2. Department of Mechanical Engineering, University of Delaware, Newark, DE, USA;3. Suzhou Institute of Nano‐Tech and Nano‐Bionics, Suzhou, P. R. China;4. Department of Chemistry and Biochemistry, University of Delaware, Newark, DE, USA;5. Composites Research Center, Korean Institute of Materials Science, Changwon, South Korea;6. Department of Chemical and Biomolecular Engineering, Center for Catalytic Science and Technology, University of Delaware, Newark, DE, USA
Abstract:The emerging fiber‐shaped supercapacitors (FSSs) have motivated tremendous research interest in energy storage devices. However, challenges still exist in the pursuit of combination of excellent electrochemical performance and mechanical stretchability. Here, a core‐sheath asymmetric FSS is first made by wrapping gel electrolyte coated carbon nanotube (CNT)@MnO2 core fiber with CNT@PPy composite film. Then a stretchable helical structure is formed by over‐twisting the FSS. The resulted stretchable asymmetric FSS exhibits a specific capacitance of 60.435 mF cm?2 at the scan rate of 10 mV s?1 and the capacitance performance is well maintained during repeated stretching to 20% strain. Furthermore, a high energy density of 18.88 μW h cm?2 is achieved for the stretchable FSS due to its high specific capacitance and extended potential window of 1.5 V.
Keywords:asymmetric configuration  carbon nanotubes  manganese oxides  polypyrrole  supercapacitors
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