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Three-Dimensional Porous Carbon Nanotubes/Reduced Graphene Oxide Fiber from Rapid Phase Separation for a High-Rate All-Solid-State Supercapacitor
writer:Ma, WJ (Ma, Wujun)[ 1 ] ; Li, M (Li, Min)[ 2 ] ; Zhou, X (Zhou, Xing)[ 1 ] ; Li, JH (Li, Jihang)[ 1
keywords:Supercapacitor
source:期刊
specific source:ACS APPLIED MATERIALS & INTERFACES
Issue time:2019年
Graphene fiber-based supercapacitors (SCs) are rising as having the greatest potential for portable/wearable energy storage devices. However, their rate performance is not well pleasing, which greatly impedes their broad practical applications. Herein, three-dimensional porous carbon nanotube/reduced graphene oxide fibers were prepared by a nonsolvent-induced rapid phase separation method followed by hydrazine vapor reduction. Benefitting from their three-dimensional porous structure, large specific surface area, and high conductivity, the fabricated SC exhibits a high volume capacitance of 54.9 F cm(-3) and high energy and power densities (4.9 m W h cm(-3) and 15.5 W cm(-3), respectively). Remarkably, the SC works well at a high scan rate of 50 V s(-1) and shows a fast frequency response with a short time constant of 78 ms. Furthermore, the fiber-shaped SC also exhibits very stable electrochemical performances when it is subjected to mechanical bending and succeeding straightening process, indicating its great potential application in flexible electronic devices.