2013
DOI: 10.1016/j.jpowsour.2013.05.147
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Ether-functionalized ionic liquid electrolytes for lithium-air batteries

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Cited by 72 publications
(58 citation statements)
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“…Repetitive cycling was done by Cui et al [50] with PP 13 TFSI-LiClO 4 (0.4 M) as electrolyte and an oxygen electrode made of vertically aligned carbon nanotubes. The values for the first (dis-)charge capacity and the observed (dis-)charge potentials were comparable to those reported by Mizuno et al, [47] Higashi et al, [48] and Nakamoto et al, [49] indicating that the cation of the employed ionic liquid is of major importance. However, the specific capacity dropped rather rapidly upon 20 cycles (20% to 56% capacity retention, depending on the cycling protocol).…”
Section: Ionic Liquid-based Electrolytes For Li-o 2 Batteriessupporting
confidence: 87%
See 1 more Smart Citation
“…Repetitive cycling was done by Cui et al [50] with PP 13 TFSI-LiClO 4 (0.4 M) as electrolyte and an oxygen electrode made of vertically aligned carbon nanotubes. The values for the first (dis-)charge capacity and the observed (dis-)charge potentials were comparable to those reported by Mizuno et al, [47] Higashi et al, [48] and Nakamoto et al, [49] indicating that the cation of the employed ionic liquid is of major importance. However, the specific capacity dropped rather rapidly upon 20 cycles (20% to 56% capacity retention, depending on the cycling protocol).…”
Section: Ionic Liquid-based Electrolytes For Li-o 2 Batteriessupporting
confidence: 87%
“…A later study confirmed these results by comparing four ionic liquids, namely DEMETFSI, PP 13 TFSI, N-methoxyethyl-Nmethylpiperidinium (PP 12O1 TFSI), and PYR 14 TFSI, regarding their stability versus the oxygen superoxide. Among these, PP 12O1 TFSI exhibited the lowest stability towards the superoxide radical anion, while PYR 14 TFSI and DEMETFSI were shown to have the highest oxygen diffusion coefficients [49]. However, for the study of such ionic liquids in lithium-oxygen cells, they compared electrolytes made of PP 13 TFSI and DEMETFSI comprising 0.32 mol kg −1 of LiTFSI and no continuous (dis-)charge cycles of the studied cells were presented.…”
Section: Ionic Liquid-based Electrolytes For Li-o 2 Batteriesmentioning
confidence: 99%
“…[98][99][100][101][102][103] Among these organic electrolytes, DMSO was thoroughly investigated by Peng et al [ 94 ] , who demonstrated that a solution of 0.1 M LiClO 4 in DMSO could give a very stable electrochemical performance using gold as the cathode substrate. The main discharge product with a DMSO-based electrolyte was Li 2 O 2 without any noticeable electrolyte decomposition after 100 cycles.…”
Section: Other Non-aqueous Electrolytesmentioning
confidence: 99%
“…Na-ion, Mg-ion and metal-air batteries) for the development of potentially safer devices. [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15] Furthermore, the high (electro)chemical stabilities and non-volatilities exhibited by many IL structures provides interesting electrolyte media for electrochemical gas sensors (e.g. for O 2 , [16][17][18][19] CO 2 ,20,21 NO 2 22 ) where traditional solvents are prone to evaporation leading to device failure, and also for electromechanical actuator, [23][24][25] and electrodeposition applications.…”
mentioning
confidence: 99%