Plastic crystal-lithium batteries: An effective ambient temperature all-solid-state power source

Ali Abouimrane; Yaser Abu-Lebdeh; Pierre Jean Alarco; Michel Armand

doi:10.1149/1.1759971

Plastic crystal-lithium batteries: An effective ambient temperature all-solid-state power source

Ali Abouimrane
, Yaser Abu-Lebdeh
, Pierre Jean Alarco
, Michel Armand

Emerging and Solid-State Batteries

Research output: Contribution to journal › Article › peer-review

85 Scopus citations

Abstract

Lithium batteries utilizing a novel plastic crystal electrolyte prepared from LiTFSI and Succinonitrile (5 mol % doping) were investigated at 20 and -5°C by charge/discharge galvanostatic cycling, with Li₄Ti ₅O₁₂ as anode and LiFePO₄ or LiCoO₂ as cathode materials. At 20°C, with only 5 mol % of LiTFSI, this solid electrolyte showed an improved capacity retention for LiFePO₄ (72% remaining capacity after 99 cycles at 5°C) and for LiCoO₂ (76% capacity retained after 99 cycles at C/12). In general, the total performance of the batteries outperformed those of their polymer gel-based counterparts, and matched those based on ionic liquids.

Original language	English
Pages (from-to)	A1028-A1031
Journal	Journal of the Electrochemical Society
Volume	151
Issue number	7
DOIs	https://doi.org/10.1149/1.1759971
State	Published - 2004

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title = "Plastic crystal-lithium batteries: An effective ambient temperature all-solid-state power source",

abstract = "Lithium batteries utilizing a novel plastic crystal electrolyte prepared from LiTFSI and Succinonitrile (5 mol \% doping) were investigated at 20 and -5°C by charge/discharge galvanostatic cycling, with Li4Ti 5O12 as anode and LiFePO4 or LiCoO2 as cathode materials. At 20°C, with only 5 mol \% of LiTFSI, this solid electrolyte showed an improved capacity retention for LiFePO4 (72\% remaining capacity after 99 cycles at 5°C) and for LiCoO2 (76\% capacity retained after 99 cycles at C/12). In general, the total performance of the batteries outperformed those of their polymer gel-based counterparts, and matched those based on ionic liquids.",

author = "Ali Abouimrane and Yaser Abu-Lebdeh and Alarco, \{Pierre Jean\} and Michel Armand",

year = "2004",

doi = "10.1149/1.1759971",

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pages = "A1028--A1031",

journal = "Journal of the Electrochemical Society",

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T1 - Plastic crystal-lithium batteries

T2 - An effective ambient temperature all-solid-state power source

AU - Abouimrane, Ali

AU - Abu-Lebdeh, Yaser

AU - Alarco, Pierre Jean

AU - Armand, Michel

PY - 2004

Y1 - 2004

N2 - Lithium batteries utilizing a novel plastic crystal electrolyte prepared from LiTFSI and Succinonitrile (5 mol % doping) were investigated at 20 and -5°C by charge/discharge galvanostatic cycling, with Li4Ti 5O12 as anode and LiFePO4 or LiCoO2 as cathode materials. At 20°C, with only 5 mol % of LiTFSI, this solid electrolyte showed an improved capacity retention for LiFePO4 (72% remaining capacity after 99 cycles at 5°C) and for LiCoO2 (76% capacity retained after 99 cycles at C/12). In general, the total performance of the batteries outperformed those of their polymer gel-based counterparts, and matched those based on ionic liquids.

AB - Lithium batteries utilizing a novel plastic crystal electrolyte prepared from LiTFSI and Succinonitrile (5 mol % doping) were investigated at 20 and -5°C by charge/discharge galvanostatic cycling, with Li4Ti 5O12 as anode and LiFePO4 or LiCoO2 as cathode materials. At 20°C, with only 5 mol % of LiTFSI, this solid electrolyte showed an improved capacity retention for LiFePO4 (72% remaining capacity after 99 cycles at 5°C) and for LiCoO2 (76% capacity retained after 99 cycles at C/12). In general, the total performance of the batteries outperformed those of their polymer gel-based counterparts, and matched those based on ionic liquids.

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U2 - 10.1149/1.1759971

DO - 10.1149/1.1759971

M3 - Article

AN - SCOPUS:3242660232

SN - 0013-4651

VL - 151

SP - A1028-A1031

JO - Journal of the Electrochemical Society

JF - Journal of the Electrochemical Society

IS - 7

ER -

Plastic crystal-lithium batteries: An effective ambient temperature all-solid-state power source

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