Na[FSA]-[C sub(3)C sub(1)pyrr][FSA] ionic liquids as electrolytes for sodium secondary batteries: Effects of Na ion concentration and operation temperature

As electrolytes for sodium secondary batteries operating over a wide temperature range, Na[FSA]-[C sub(3)C sub(1)pyrr][FSA] (FSA = bis(fluorosulfonyl)amide, C sub(3)C sub(1)pyrr = N-methyl-N-propylpyrrolidinium) ionic liquids have been investigated. The effects of Na ion concentration (0-60 mol% Na[...

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Veröffentlicht in:	Journal of power sources 2014-12, Vol.269, p.124-128
Hauptverfasser:	Ding, Changsheng, Nohira, Toshiyuki, Hagiwara, Rika, Matsumoto, Kazuhiko, Okamoto, Yu, Fukunaga, Atsushi, Sakai, Shoichiro, Nitta, Koji, Inazawa, Shinji
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Sprache:	eng
Schlagworte:	Electrolytes Electrolytic cells Ion concentration Ionic conductivity Ionic liquids Optimization Sodium Storage batteries
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container_title	Journal of power sources
container_volume	269
creator	Ding, Changsheng Nohira, Toshiyuki Hagiwara, Rika Matsumoto, Kazuhiko Okamoto, Yu Fukunaga, Atsushi Sakai, Shoichiro Nitta, Koji Inazawa, Shinji
description	As electrolytes for sodium secondary batteries operating over a wide temperature range, Na[FSA]-[C sub(3)C sub(1)pyrr][FSA] (FSA = bis(fluorosulfonyl)amide, C sub(3)C sub(1)pyrr = N-methyl-N-propylpyrrolidinium) ionic liquids have been investigated. The effects of Na ion concentration (0-60 mol% Na[FSA]) and operation temperature (253-363 K) on the viscosity and ionic conductivity and charge-discharge performance of Na/Na[FSA]-[C sub(3)C sub(1)pyrr] [FSA]/NaCrO sub(2) cells are studied. Results show that Na ion concentration strongly affects the rate capability of the cells, and that the best rate capability at 363 K is obtained at 40 mol% Na [FSA]. The operation temperature also significantly influences the charge-discharge performance, especially at low temperatures. At operation temperatures below 273 K, 25 mol% Na[FSA] is found to be the optimum Na ion concentration. There exist different optimum ranges of Na ion concentration depending on the operation temperatures.
doi_str_mv	10.1016/j.jpowsour.2014.06.033
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The effects of Na ion concentration (0-60 mol% Na[FSA]) and operation temperature (253-363 K) on the viscosity and ionic conductivity and charge-discharge performance of Na/Na[FSA]-[C sub(3)C sub(1)pyrr] [FSA]/NaCrO sub(2) cells are studied. Results show that Na ion concentration strongly affects the rate capability of the cells, and that the best rate capability at 363 K is obtained at 40 mol% Na [FSA]. The operation temperature also significantly influences the charge-discharge performance, especially at low temperatures. At operation temperatures below 273 K, 25 mol% Na[FSA] is found to be the optimum Na ion concentration. 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The effects of Na ion concentration (0-60 mol% Na[FSA]) and operation temperature (253-363 K) on the viscosity and ionic conductivity and charge-discharge performance of Na/Na[FSA]-[C sub(3)C sub(1)pyrr] [FSA]/NaCrO sub(2) cells are studied. Results show that Na ion concentration strongly affects the rate capability of the cells, and that the best rate capability at 363 K is obtained at 40 mol% Na [FSA]. The operation temperature also significantly influences the charge-discharge performance, especially at low temperatures. At operation temperatures below 273 K, 25 mol% Na[FSA] is found to be the optimum Na ion concentration. 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subjects	Electrolytes Electrolytic cells Ion concentration Ionic conductivity Ionic liquids Optimization Sodium Storage batteries
title	Na[FSA]-[C sub(3)C sub(1)pyrr][FSA] ionic liquids as electrolytes for sodium secondary batteries: Effects of Na ion concentration and operation temperature
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