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Abstract The novel structure of few-layer carbon@bulk carbon is synthesized via controlling diffusion depth from liquid phase (KOH aqueous) to solid phase (carbon precursor) for using tamarisk-tree as carbon precursor.… Click to show full abstract
Abstract The novel structure of few-layer carbon@bulk carbon is synthesized via controlling diffusion depth from liquid phase (KOH aqueous) to solid phase (carbon precursor) for using tamarisk-tree as carbon precursor. Few-layer carbon@bulk carbon shows the highest specific capacitance of 413.0 F g − 1 with specific surface area of 1964.2 m2 g − 1. The symmetric supercapacitor assembled with few-layer carbon@bulk carbon delivers a maximum specific energy of 20.2 and 9.83 Wh kg−1 in Li2SO4 and KOH electrolyte, respectively. Specific capacitance of the device maintains 93.5% of the initial value at 4 A g − 1 in KOH electrolyte after 10, 000 cycles. The high electrochemical performance and good cycle stability exhibits the potential application of this kind of biomass based carbon materials in energy storage.
Journal Title: Journal of energy storage
Year Published: 2020
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