Department of Energy Science and Engineering Battery Materials & Systems LAB 1. Journal Articles
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dc.contributor.author Kim, Seokwoo -
dc.contributor.author Han, Taeyeong -
dc.contributor.author Jeong, Jiseon -
dc.contributor.author Lee, Hoogil -
dc.contributor.author Ryou, Myung-Hyun -
dc.contributor.author Lee, Yong Min -
dc.date.available 2017-11-26T07:26:31Z -
dc.date.created 2017-11-01 -
dc.date.issued 2017-07 -
dc.identifier.issn 0013-4686 -
dc.identifier.uri http://hdl.handle.net/20.500.11750/4722 -
dc.description.abstract A new composite polymer electrolyte (CPE) containing a flame-retardant material, Mg(OH)2, is fabricated via a two-step process: porous poly(vinylidene-co-hexafluoropropylene) films composited with different Mg(OH)2 contents are first prepared via casting and extraction steps, and they are then impregnated with a liquid electrolyte. As the Mg(OH)2 content in the CPEs increases, their flame-retardant properties are greatly improved compared to those of the bare polymer electrolyte. Moreover, the better wettability of Mg(OH)2 toward a liquid electrolyte leads to higher ionic conductivities of CPEs, thereby resulting in a better rate capability in LiCoO2/graphite lithium-ion polymer batteries (LiPBs). However, the Mg(OH)2 content must be limited to less than 40 wt% to maintain the mechanical properties of the corresponding CPEs. © 2017 Elsevier Ltd -
dc.language English -
dc.publisher Elsevier Ltd -
dc.title A Flame-Retardant Composite Polymer Electrolyte for Lithium-Ion Polymer Batteries -
dc.type Article -
dc.identifier.doi 10.1016/j.electacta.2017.04.129 -
dc.identifier.scopusid 2-s2.0-85019243342 -
dc.identifier.bibliographicCitation Electrochimica Acta, v.241, pp.553 - 559 -
dc.description.isOpenAccess FALSE -
dc.subject.keywordAuthor flame-retardant -
dc.subject.keywordAuthor composite polymer electrolyte -
dc.subject.keywordAuthor magnesium hydroxide -
dc.subject.keywordAuthor safety -
dc.subject.keywordAuthor lithium-ion polymer battery -
dc.subject.keywordPlus Accident Prevention -
dc.subject.keywordPlus Cathode Density -
dc.subject.keywordPlus Challenges -
dc.subject.keywordPlus Composite Films -
dc.subject.keywordPlus Composite Polymer Electrolyte -
dc.subject.keywordPlus Composite Polymer Electrolytes -
dc.subject.keywordPlus Electric Batteries -
dc.subject.keywordPlus Electrochemical Performance -
dc.subject.keywordPlus Electrolytes -
dc.subject.keywordPlus Flame Retardant -
dc.subject.keywordPlus Flame Retardant Properties -
dc.subject.keywordPlus Flame Retardants -
dc.subject.keywordPlus Ions -
dc.subject.keywordPlus LiCoO2 -
dc.subject.keywordPlus Liquid Electrolytes -
dc.subject.keywordPlus Lithium -
dc.subject.keywordPlus Lithium Ion Batteries -
dc.subject.keywordPlus Lithium Ion Polymer Batteries -
dc.subject.keywordPlus Lithium Ion Polymer Battery -
dc.subject.keywordPlus Lithium Alloys -
dc.subject.keywordPlus Magnesium Hydroxide -
dc.subject.keywordPlus Magnesium Castings -
dc.subject.keywordPlus Poly(Vinylidene Co Hexafluoropropylene) -
dc.subject.keywordPlus Polyelectrolytes -
dc.subject.keywordPlus Polyethylene Separators -
dc.subject.keywordPlus Polymer Electrolyte -
dc.subject.keywordPlus Polymer Films -
dc.subject.keywordPlus Polymers -
dc.subject.keywordPlus Rate Capabilities -
dc.subject.keywordPlus Safety -
dc.subject.keywordPlus Thickness -
dc.citation.endPage 559 -
dc.citation.startPage 553 -
dc.citation.title Electrochimica Acta -
dc.citation.volume 241 -
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