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Highly conductive, mesoporous carbon nanofiber web as electrode material for high-performance supercapacitors
2019/11/27 21:33:32 admin
Polyacrylonitrile/poly(methyl methacrylate) (PMMA) fibers containing graphene are prepared by the electrospinning method, and hierarchical porous carbon nanofibers (CNFs) are obtained after subsequent heat treatment. The hierarchical porous CNFs have an improved structure and properties because of the increased surface area, unique nanotexture and increased electrical conductivity due to the dispersion of graphene. The carbonized fiber exhibits a high surface area (over 500 m(2) g(-1)) as result of the narrow ultramicro- and mesopore size distributions (centered at approximately 0.7 and 3.7 nm, respectively), and a broad mesopore size distribution ranging from 10 to 50 nm. The hierarchical pore structures are introduced by the evolution of small gas molecules during the decomposition of the PMMA during heat treatment. The highest specific capacitance of the CNFs is 128 F g(-1), and the energy densities are 16.0-21.4 W h kg(-1) in an aqueous solution and 75.0-58.2 W h kg(-1) in an organic electrolyte over a power density range of 400-20,000 W kg-(1.) Under constant current charging/discharging at 1 mA cm(-2) for 100 cycles, the stability of the CNFs in a 6 M KOH aqueous electrolyte decreases by similar to 17% compared with the initial specific capacitance value. (C) 2012 Elsevier Ltd. All rights reserved.
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