Functional separator with lower resistance toward lithium ion transport for enhancing the electrochemical performance of lithium ion batteries

[Display omitted] •Hydrophilicity is imparted into PE separator by chemical treatment with benzoyl peroxide (BPO).•BPO-PE separator exhibits superior wettability toward polar organic liquid electrolyte of LIBs.•The cell with the BPO-PE separator displays remarkable rate capability (86.7%) compared t...

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Published inJournal of industrial and engineering chemistry (Seoul, Korea) Vol. 71; pp. 228 - 233
Main Authors Kim, Ki Jae, Kwon, Yong Kab, Yim, Taeeun, Choi, Wonchang
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.03.2019
한국공업화학회
Subjects
Hydrophilicity
Lithium ion battery
Lithium ion transfer
Separator
Surface treatment
Wettability
화학공학
Lithium ion battery
Wettability
Lithium ion transfer
Hydrophilicity
Surface treatment
Separator
Online AccessGet full text
ISSN1226-086X
1876-794X
DOI10.1016/j.jiec.2018.11.029

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Abstract [Display omitted] •Hydrophilicity is imparted into PE separator by chemical treatment with benzoyl peroxide (BPO).•BPO-PE separator exhibits superior wettability toward polar organic liquid electrolyte of LIBs.•The cell with the BPO-PE separator displays remarkable rate capability (86.7%) compared to the PE separator (78.6%) at a current rate of 3.0C. By chemical treatment with benzoyl peroxide, oxygen-containing functional groups can be successfully introduced to the surface and interior of the PE separator, resulting in improved wettability and high electrolyte uptake without sacrificing mechanical and physicochemical properties. Hence, lithium ion transport across the PE separator treated by benzoyl peroxide is effectively facilitated by the formation of oxygen functional groups, leading to improved ionic conductivity. The LiB cells assembled with the PE separator treated by BPO exhibit remarkable rate capability and outstanding capacity retention (98.1%) after 70 cycles.
AbstractList By chemical treatment with benzoyl peroxide, oxygen-containing functional groups can be successfullyintroduced to the surface and interior of the PE separator, resulting in improved wettability and highelectrolyte uptake without sacrificing mechanical and physicochemical properties. Hence, lithium iontransport across the PE separator treated by benzoyl peroxide is effectively facilitated by the formation ofoxygen functional groups, leading to improved ionic conductivity. The LiB cells assembled with the PEseparator treated by BPO exhibit remarkable rate capability and outstanding capacity retention (98.1%)after 70 cycles. KCI Citation Count: 1
[Display omitted] •Hydrophilicity is imparted into PE separator by chemical treatment with benzoyl peroxide (BPO).•BPO-PE separator exhibits superior wettability toward polar organic liquid electrolyte of LIBs.•The cell with the BPO-PE separator displays remarkable rate capability (86.7%) compared to the PE separator (78.6%) at a current rate of 3.0C. By chemical treatment with benzoyl peroxide, oxygen-containing functional groups can be successfully introduced to the surface and interior of the PE separator, resulting in improved wettability and high electrolyte uptake without sacrificing mechanical and physicochemical properties. Hence, lithium ion transport across the PE separator treated by benzoyl peroxide is effectively facilitated by the formation of oxygen functional groups, leading to improved ionic conductivity. The LiB cells assembled with the PE separator treated by BPO exhibit remarkable rate capability and outstanding capacity retention (98.1%) after 70 cycles.
Author Choi, Wonchang
Yim, Taeeun
Kwon, Yong Kab
Kim, Ki Jae
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Keywords Lithium ion battery
Wettability
Lithium ion transfer
Hydrophilicity
Surface treatment
Separator
Language English
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한국공업화학회
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Snippet [Display omitted] •Hydrophilicity is imparted into PE separator by chemical treatment with benzoyl peroxide (BPO).•BPO-PE separator exhibits superior...
By chemical treatment with benzoyl peroxide, oxygen-containing functional groups can be successfullyintroduced to the surface and interior of the PE separator,...
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StartPage 228
SubjectTerms Hydrophilicity
Lithium ion battery
Lithium ion transfer
Separator
Surface treatment
Wettability
화학공학
Title Functional separator with lower resistance toward lithium ion transport for enhancing the electrochemical performance of lithium ion batteries
URI https://dx.doi.org/10.1016/j.jiec.2018.11.029
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