Smart Textile Convergence Research Group 1. Journal Articles
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dc.contributor.author Park, Yiseul -
dc.contributor.author Park, Jung Soo -
dc.contributor.author Baek, Seong-Ho -
dc.contributor.author Kim, Jae Hyun -
dc.date.accessioned 2018-01-25T01:09:37Z -
dc.date.available 2018-01-25T01:09:37Z -
dc.date.created 2017-04-10 -
dc.date.issued 2015-11-20 -
dc.identifier.issn 0378-7753 -
dc.identifier.uri http://hdl.handle.net/20.500.11750/5157 -
dc.description.abstract The rate capability of a Li4Ti5O12 (LTO)-based anode in a lithium ion battery can be easily improved by electron beam (EB) irradiation without the need for complicated synthetic procedures. The electrode prepared with EB-irradiated LTO at a 50 kGy dose has an enhanced rate capability while retaining a discharge capacity of 100 mAh g-1, even at the 20 C-rate. The effect of EB irradiation on the properties of the anode materials (i.e., LTO, poly(vinylidene fluoride) (PVDF), super P carbon) is examined in detail through systematic experiments. Both LTO and PVDF are affected by EB irradiation and dependent on the exposed electron dose, but super P is affected negligibly. EB irradiation partially reduces LTO with forming Tix+ (2 < x < 4) which is attributed to the enhanced electrical conductivity. EB irradiation causes dehydrofluorination and cross-linking in PVDF, resulting in the formation of carbon-carbon double bonds. The conjugated structure of PVDF is formed by the further dehydrofluorination during mixing with LTO via ball-milling, and this is accelerated in the presence of EB-PVDF. This conjugated structure enhances the electrical conductivity and is responsible for the improved rate capability. © 2015 Elsevier B.V. All rights reserved. -
dc.publisher Elsevier B.V. -
dc.title Electron beam modification of anode materials for high-rate lithium ion batteries -
dc.type Article -
dc.identifier.doi 10.1016/j.jpowsour.2015.07.031 -
dc.identifier.scopusid 2-s2.0-84937422372 -
dc.identifier.bibliographicCitation Journal of Power Sources, v.296, pp.109 - 116 -
dc.subject.keywordAuthor Electron beam -
dc.subject.keywordAuthor Lithium ion battery -
dc.subject.keywordAuthor Lithium titanium oxide -
dc.subject.keywordAuthor High rate capability -
dc.subject.keywordPlus Anodes -
dc.subject.keywordPlus Ball Milling -
dc.subject.keywordPlus Carbon-Carbon Double Bonds -
dc.subject.keywordPlus Electric Batteries -
dc.subject.keywordPlus Electric Conductivity -
dc.subject.keywordPlus Electrical Conductivity -
dc.subject.keywordPlus Electrodes -
dc.subject.keywordPlus Electron Beam -
dc.subject.keywordPlus Electron Beam Irradiation -
dc.subject.keywordPlus Electron Beam Modification -
dc.subject.keywordPlus Electron Beams -
dc.subject.keywordPlus Electrons -
dc.subject.keywordPlus High Rate Capability -
dc.subject.keywordPlus Ions -
dc.subject.keywordPlus Irradiation -
dc.subject.keywordPlus Lithium -
dc.subject.keywordPlus Lithium-Ion Batteries -
dc.subject.keywordPlus Lithium Alloys -
dc.subject.keywordPlus Lithium Compounds -
dc.subject.keywordPlus Lithium Ion Battery -
dc.subject.keywordPlus Lithium Titanium Oxide -
dc.subject.keywordPlus MECHANISM -
dc.subject.keywordPlus Organic Polymers -
dc.subject.keywordPlus OXIDES -
dc.subject.keywordPlus PERFORMANCE -
dc.subject.keywordPlus Poly (Vinylidene Fluoride)(PVDF) -
dc.subject.keywordPlus POLY(VINYLIDENE FLUORIDE) -
dc.subject.keywordPlus Radiation -
dc.subject.keywordPlus Surfaces -
dc.subject.keywordPlus Systematic Experiment -
dc.subject.keywordPlus Titanium Oxides -
dc.subject.keywordPlus XPS -
dc.citation.endPage 116 -
dc.citation.startPage 109 -
dc.citation.title Journal of Power Sources -
dc.citation.volume 296 -
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Smart Textile Convergence Research Group 1. Journal Articles
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