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Hierarchical Fabric Decorated with Carbon Nanowire/Metal Oxide Nanocomposites for 1.6 V Wearable Aqueous Supercapacitors
Authors:Wenbin Fu  Enbo Zhao  Xiaolei Ren  Alexandre Magasinski  Gleb Yushin
Affiliation:1. School of Materials Science and Engineering, Georgia Institute of Technology, Atlanta, GA, USA;2. School of Physical Science and Technology, Lanzhou University, Lanzhou, China;3. School of Chemistry and Biochemistry, Georgia Institute of Technology, Atlanta, GA, USA
Abstract:Aqueous asymmetric supercapacitors (ASCs) may offer comparable or higher energy density than electric double‐layer capacitors (EDLCs) based on organic electrolytes. As such, ASCs may be more suitable for integration into smart textiles, where the use of flammable organic solvents is not acceptable. However, reported ASC devices typically suffer from poor rate capability and low areal loadings. This study demonstrates the development of nitrogen‐doped carbon (N‐C) nanowire/metal oxide (Fe2O3 and MnO2) nanocomposite electrodes directly produced on the internal surface of a conductive fabric for use as high‐rate electrodes for solid‐state ASCs. The N‐C nanowires provide fast and efficient pathways for electrons, while short diffusion paths within nanosized metal oxides enable fast ion transport, leading to greatly enhanced performance at high rates. The porous structure of the fabric enables high areal capacitance loading in each electrode (≈150 mF cm?2). Both electrodes show high specific capacitance of ≈180 F g?1 (Fe2O3) and ≈250 F g?1 (MnO2) and excellent rate capability. Solid‐state ASCs assembled by using an aqueous gel electrolyte operate at 1.6 V and deliver over 60 mF cm?2 during ≈50 s charging/discharging time and over 30 mF cm?2 for ≈5 s discharge.
Keywords:asymmetric  metal oxides  nanocomposites  nitrogen‐doped carbon  supercapacitors
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