Development of Aluminum-Air Battery Using an Ionic Liquid Electrolyte Solution

Prototype Al-air primary battery was constructed to avoid self-discharging due to chemical dissolution of Al in a concentrated alkaline electrolyte during non-operation condition. The battery was composed of two compartments; one of which contained hydrophobic ionic liquid（EMIIM-TFSI）and KOH pellets...

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Veröffentlicht in:	ECS transactions 2017-01, Vol.75 (18), p.83-90
Hauptverfasser:	Oguma, Toshi, Azumi, Kazuhisa
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creator	Oguma, Toshi Azumi, Kazuhisa
description	Prototype Al-air primary battery was constructed to avoid self-discharging due to chemical dissolution of Al in a concentrated alkaline electrolyte during non-operation condition. The battery was composed of two compartments; one of which contained hydrophobic ionic liquid（EMIIM-TFSI）and KOH pellets, and the other contained alkaline KOH aqueous solution and air electrode. Two compartments were separated with an anion exchange membrane. Although EMIIM-TFSI had hydrophobic property, it could contain a little amount of water to enable Al dissolution. Results of current-voltage curve measured in various conditions indicated that the internal resistance of the battery was rather high to limit the battery performance. Impedance analysis using proper arrangement of a pseudo-reference electrode of Ag wire in the battery enabled to estimate resistance of each component of the battery to clarify the bottleneck of this system.
doi_str_mv	10.1149/07518.0083ecst
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The battery was composed of two compartments; one of which contained hydrophobic ionic liquid（EMIIM-TFSI）and KOH pellets, and the other contained alkaline KOH aqueous solution and air electrode. Two compartments were separated with an anion exchange membrane. Although EMIIM-TFSI had hydrophobic property, it could contain a little amount of water to enable Al dissolution. Results of current-voltage curve measured in various conditions indicated that the internal resistance of the battery was rather high to limit the battery performance. Impedance analysis using proper arrangement of a pseudo-reference electrode of Ag wire in the battery enabled to estimate resistance of each component of the battery to clarify the bottleneck of this system.</abstract><pub>The Electrochemical Society, Inc</pub><doi>10.1149/07518.0083ecst</doi><tpages>8</tpages></addata></record>
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title	Development of Aluminum-Air Battery Using an Ionic Liquid Electrolyte Solution
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