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AuthorLatz, Arnulfdc.contributor.author
AuthorZausch, Jochendc.contributor.author
Date of accession2020-01-28T10:04:39Zdc.date.accessioned
Available in OPARU since2020-01-28T10:04:39Zdc.date.available
Date of first publication2015dc.date.issued
Languageendc.language.iso
PublisherUniversität Ulmdc.publisher
Keywordlithium ion batteriesdc.subject
Keywordmultiscale modelingdc.subject
Keywordheat transportdc.subject
KeywordINTERCALATION-INDUCED STRESSdc.subject
KeywordOXYGEN REDUCTION REACTIONdc.subject
KeywordNONEQUILIBRIUM THERMODYNAMICSdc.subject
KeywordCOHERENCY STRAINdc.subject
KeywordPHASE-SEPARATIONdc.subject
KeywordHEAT-GENERATIONdc.subject
KeywordLICOO2 CATHODEdc.subject
KeywordINSERTIONdc.subject
KeywordSIMULATIONdc.subject
KeywordELECTRODEdc.subject
Dewey Decimal GroupDDC 530 / Physicsdc.subject.ddc
Dewey Decimal GroupDDC 620 / Engineering & allied operationsdc.subject.ddc
TitleMultiscale modeling of lithium ion batteries: thermal aspectsdc.title
Resource typeWissenschaftlicher Artikeldc.type
FacultyFakultät für Naturwissenschaftenuulm.affiliationGeneral
InstitutionInstitut für Elektrochemieuulm.affiliationSpecific
DCMI TypeTextuulm.typeDCMI
CategoryPublikationsnachweiseuulm.category
DOI (external)10.3762/bjnano.6.102dc.identifier.doiExternal
Source - Title of sourceBeilstein journal of nanotechnologysource.title
Source - Place of publicationBeilstein-Institutsource.publisher
Source - Volume6source.volume
Source - Year2015source.year
Source - From page987source.fromPage
Source - To page1007source.toPage
Source - ISSN2190-4286source.identifier.issn
Open AccessDOAJ Gold, Green Published, Green Accepteduulm.OA
Suitable communityFakultät für Naturwissenschaftenuulm.community
WoS000353118300001uulm.identifier.wos
University Bibliographyjauulm.unibibliographie


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