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W4220904382 startingPage "287" @default.
W4220904382 abstract "Growing global demands to resort to renewable energy sources to meet the rising energy requirements of modern society make it mandatory to develop state-of-the-art energy storage systems to store energy when it is available in abundance and release it upon demand. Clean and renewable solar energy and wind energy cannot be made continuously available, and sporadic nature of these energy sources has to be handled using efficient energy storage systems. Rechargeable batteries and supercapacitors constitute the most efficient categories of energy storage systems. This chapter illustrates novel approaches recently being attempted for enhancing energy density, charge storage capacity, and power density of rechargeable cells, especially lithium-based cells and supercapacitors to meet the power requirements of storage systems needed for electric vehicles in addition to portable electronic devices. Currently, commercialized Li-based cells do not have enough energy density and capacity needed for efficiently powering automobiles. Supercapacitors having much higher power density than rechargeable cells are used along with the latter to carry out speedy operations with efficiency when powering electric vehicles. Power density of supercapacitors has to be enhanced to meet the power requirements of high power systems. Graphene, a two-dimensional (2D) nanomaterial with its exceptionally high electrical conductivity, high surface area, controllable porosity, and mechanical and chemical stability, is continuously surprising researchers with its intriguing roles to bring breakthroughs in all walks of science and technology. Present chapter is devoted to bring to light some of the innovative approaches being adopted for improving capacity, energy density, and power density of Li-rechargeable cells and supercapacitors, utilizing the amazing prospects offered by graphene in different forms." @default.
W4220904382 created "2022-04-03" @default.
W4220904382 creator A5013588130 @default.
W4220904382 creator A5024930403 @default.
W4220904382 creator A5040187475 @default.
W4220904382 date "2022-03-25" @default.
W4220904382 modified "2023-09-29" @default.
W4220904382 title "Graphene for Breakthroughs in Designing Next‐Generation Energy Storage Systems" @default.
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W4220904382 doi "https://doi.org/10.1002/9783527833689.ch12" @default.
W4220904382 hasPublicationYear "2022" @default.
W4220904382 type Work @default.
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