Rhombohedral Prussian White as Cathode for Rechargeable Sodium-Ion Batteries

Long Wang; Jie Song; Ruimin Qiao; L. Andrew Wray; Muhammed Hossain; Yi‐De Chuang; Wanli Yang; Yuhao Lu; David Evans; Jong-Jan Lee; Sean Vail; Xin Zhao; Motoaki Nishijima; Seizoh Kakimoto; John B. Goodenough

doi:10.1021/ja510347s

Rhombohedral Prussian White as Cathode for Rechargeable Sodium-Ion Batteries

Long Wang, Jie Song(The University of Texas at Austin), Ruimin Qiao(Lawrence Berkeley National Laboratory), L. Andrew Wray(Lawrence Berkeley National Laboratory), Muhammed Hossain(Lawrence Berkeley National Laboratory), Yi‐De Chuang(Lawrence Berkeley National Laboratory), Wanli Yang(Lawrence Berkeley National Laboratory), Yuhao Lu, David Evans, Jong-Jan Lee, Sean Vail, Xin Zhao, Motoaki Nishijima, Seizoh Kakimoto, John B. Goodenough(The University of Texas at Austin)

Journal of the American Chemical Society

January 23, 2015

10.1021/ja510347s

Cited by 758

Abstract

A novel air-stable sodium iron hexacyanoferrate (R-Na1.92Fe[Fe(CN)6]) with rhombohedral structure is demonstrated to be a scalable, low-cost cathode material for sodium-ion batteries exhibiting high capacity, long cycle life, and good rate capability. The cycling mechanism of the iron redox is clarified and understood through synchrotron-based soft X-ray absorption spectroscopy, which also reveals the correlation between the physical properties and the cell performance of this novel material. More importantly, successful preparation of a dehydrated iron hexacyanoferrate with high sodium-ion concentration enables the fabrication of a discharged sodium-ion battery with a non-sodium metal anode, and the manufacturing feasibility of low cost sodium-ion batteries with existing lithium-ion battery infrastructures has been tested.

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