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A High‐Performance Na–Al Battery Based on Reversible NaAlCl 4 Catholyte
Author(s) -
Zhan Xiaowen,
Bonnett Jeffrey F.,
Engelhard Mark H.,
Reed David M.,
Sprenkle Vincent L.,
Li Guosheng
Publication year - 2020
Publication title -
advanced energy materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 10.08
H-Index - 220
eISSN - 1614-6840
pISSN - 1614-6832
DOI - 10.1002/aenm.202001378
Subject(s) - anode , faraday efficiency , battery (electricity) , materials science , cathode , electrolyte , energy storage , potassium ion battery , chemical engineering , stripping (fiber) , electrochemistry , electrode , electrical engineering , chemistry , composite material , lithium vanadium phosphate battery , thermodynamics , power (physics) , physics , engineering
Abstract This work demonstrates a high‐capacity and safe Na–Al battery pairing a sodium metal anode and reversible NaAlCl 4 catholyte for grid scale energy storage applications. The energy‐rich Na anode allows the full use of the aluminum cathode, resulting in a full‐cell capacity of 308 mAh g −1 at a discharge voltage of 1.6 V. Benefiting from the use of a β″‐alumina solid electrolyte, molten sodium anode, and reversible Al deposition/stripping from NaAlCl 4 catholyte, the battery presents a stable Coulombic efficiency of 100% and energy efficiency of ≈95%. At a rate of C/3 (6.77 mA cm −2 ), the cell maintains 282 mAh g −1 (447 Wh kg −1 ) after 200 cycles with an excellent capacity retention of 97.6%. Moreover, pathways to build Na‐anode‐free cells from the discharged state under dry air are elucidated, which further extends the feasibility of this battery for stationary storage applications. These findings are expected to provide a new platform for the development of practical aluminum batteries.