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Graphene-based Materials for Electrochemical Energy Storage Devices-EESDs; Opportunities and Future Perspective

Khizra ArifAbdul ShakoorMuhammad AwaisMarvi DashiBehram Khan Ajat KhelBentham Science Publisher Sami Ur RehmanKhansa MasoodFarah HussainWaheed AlamM. Atif

Year: 2024 BENTHAM SCIENCE PUBLISHERS eBooks Pages: 160-176
DOI: 10.2174/9789815238938124010011
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Abstract

The material's exciting properties, which have substantially expanded the field of study, include its enormous surface area, outstanding electrical conductivity, extreme thinness, amazing electron kinesis, and cutting-edge mechanical control. These topographies are largely active for various energy-storage devices (EESDs) such as supercapacitors, hybrid cathode and anode materials, lithium-sulfur batteries, lithiumion batteries, lithium-oxygen batteries, and sodium-ion batteries. The scalability, stability, and uniformity of nanomaterials made of carbon are essential for the development of graphene-based energy storage devices.

Keywords:
Electrochemical energy storage Graphene Perspective (graphical) Materials science Energy storage Electrochemistry Nanotechnology Electrochemical energy conversion Engineering physics Computer science Supercapacitor Engineering Chemistry Physics Electrode Artificial intelligence

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Citation History

Topics

Supercapacitor Materials and Fabrication
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials

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