The demand for high performance energy storage devices has stimulated much interests in developing high-energy density supercapacitors. Herein, we report N-doped peanut hull derived activated carbon (PHAC) nanosheets as high-performance supercapacitor electrode by low-cost approach. Electron microscope and physiochemical characterization of PHAC confirm multi-layered sheet like nanostructures with self-doped nitrogen. Tuning of KOH activation temperature in a narrow range between 700 °C and 750 °C has a significant effect over specific surface area which increases up to ∼2300 m2g−1 for 720 °C activated PHAC compared to 501 m2g−1 for 700 °C treated sample. Investigation of PHACs as supercapacitor electrode in 1.0 M H2SO4 electrolyte delivers high capacitance of 195 Fg−1 at an applied current density of 1 Ag−1 with superior capacitance retention of 98.6% after 15000 cycles. More importantly, PHACs electrode shows high stability even at a current density of 50 Ag−1 with an impressive capacitive retention of 49.2%. In a symmetric cell configuration, the PHAC constructed electrode shows a maximum power density of 25 KW kg−1 with energy density of 8.96 Wh kg−1. Such an exquisite charge storage performance of N-doped peanut hull based carbon nanosheets is attributed to very large surface area, porosity, high N-content vis-ẚ-vis electrical conductivity.
Nanomaterials are the wonder materials in many distinguished fields, yet their research in mainstream Lithium-ion batteries is at rudimentary stages. Polyanion-based cathode materials use nanostructuring to enhance their performance throughput,...
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