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Authors: Kenneth I Ozoemena Mesfin Kebede
Publish Date: 2016
Volume: , Issue: , Pages: 1-24
Abstract
Every market analysis predicts that lithiumion batteries LIBs will dominate energy storage technologies for now and the foreseeable future LIBs will drive many applications ranging from portable electronics to electric vehicles and smart grids while also permitting a greener and more sustainable global environment The few successful cathode materials today are those of the layered spinel and olivine structures Despite their success they still fall short of some requirements such as high energy highrate performance low cost cycle life and safety of modern portable electronics electric vehicles grid applications and home storage For example it has been well established that the realisation of electric vehicles is highly dependent on LIBs with high energy and power density durability safety and reduced cost In addition the design development and innovation of highperforming portable electronics are limited by the size power and cycle life of the batteries that drive them Nanosizing of electrode materials has emerged as one of the most promising strategies to dramatically improve the performance of LIBs including capacity rate capability cycle life cost reduction and safety This review chapter provides the readership an understanding of the critical scientific challenges faced by the existing cathode materials used in LIBs and the critical roles engineered nanostructures can play in the realisation of nextgeneration LIBs for the everemerging technologies
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