Enhanced Reversibility and Durability of a Solid Oxide Fe–Air Redox Battery by Carbothermic Reaction Derived Energy Storage Materials

Author(s)

Xuan Zhao
Xue Li
Yunhui Gong
Kevin Huang, University of South Carolina - ColumbiaFollow

Document Type

Article

Abstract

The recently developed solid oxide metal–air redox battery is a new technology capable of high-rate chemistry. Here we report that the performance, reversibility and stability of a solid oxide iron–air redox battery can be significantly improved by nanostructuring energy storage materials from a carbothermic reaction.

Publication Info

Published in Chemical Communications, Volume 50, Issue 5, 2013, pages 623-625.

©Chemical Communications (2013), Royal Society of Chemistry.

This article cannot be redistributed of further made available.

This article was first published by the Royal Society of Chemistry and can be found at http://dx.doi.org/10.1039/c3cc47673a

Zhao, X., Li, X., Gong, Y. & Huang, K. (2013). Enhanced Reversibility and Durability of a Solid Oxide Fe–Air Redox Battery by Carbothermic Reaction Derived Energy Storage Materials. Chemical Communications, 50 (5), 623 - 625. http://dx.doi.org/10.1039/c3cc47673a

Rights

©Chemical Communications (2013), Royal Society of Chemistry.

This article cannot be redistributed of further made available.

This article was first published by the Royal Society of Chemistry and can be found at http://dx.doi.org/10.1039/c3cc47673a

Zhao, X., Li, X., Gong, Y. & Huang, K. (2013). Enhanced Reversibility and Durability of a Solid Oxide Fe–Air Redox Battery by Carbothermic Reaction Derived Energy Storage Materials. Chemical Communications, 50 (5), 623 - 625. http://dx.doi.org/10.1039/c3cc47673a