Researchers at India’s Institute of Nano Science and Technology (INST) have developed a new route for the scalable preparation of large area few-layer graphene from waste biomass (nutshells) for high-performance energy storage devices.
The team’s objective of using biomass-waste is not only to solve the problem of waste recycling but also to generate value-added materials like conductive graphene for renewable energy storage devices such as supercapacitors. The Peanut shell-derived graphene is said to posses remarkably high specific surface area (2070 m2 g?1) and excellent specific capacitance. This method is reportedly scalable, renewable and cost-effective.
The resulting electrodes based on the nutshell-drived graphene exhibited a high specific capacity of 186 F g?1 without the use of any binder in 1 M H2SO4 as supporting electrolyte. The highest energy density of 58.125 W h Kg?1 and highest power density of 37.5 W Kg?1 was achieved by the material. Surprisingly, the working potential increased to 2.5?V in an organic electrolyte leading to an obvious increase in the energy density to 68 W h Kg?1. Solid-state-supercapacitor was fabricated with this material for the possible use of low-cost, high energy promising energy storage device.
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