High-capacity electrode materials for electrochemical energy storage: Role of nanoscale effects

Nanda, J and Martha, Surendra Kumar and Kalyanaraman, R (2015) High-capacity electrode materials for electrochemical energy storage: Role of nanoscale effects. Pramana-journal of physics, 84 (6). pp. 1073-1086. ISSN 0304-4289

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Abstract

This review summarizes the current state-of-the art electrode materials used for high-capacity lithium-ion-based batteries and their significant role towards revolutionizing the elec- trochemical energy storage landscape in the area of consumer electronics, transportation and grid storage application. We discuss the role of nanoscale effects on the electrochemical performance of high-capacity battery electrode materials. Decrease in the particle size of the primary electrode materials from micron to nanometre size improves the ionic and electronic diffusion rates signifi- cantly. Nanometre-thick solid electrolyte (such as lithium phosphorous oxynitride) and oxides (such as Al 2 O 3 ,ZnO,TiO 2 etc.) material coatings also improve the interfacial stability and rate capability of a number of battery chemistries. We elucidate these effects in terms of different high-capacity battery chemistries based on intercalation and conversion mechanism.

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