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- Liivat, Anti,1974-Uppsala universitet,Institutionen för materialkemi (author)
Ordering in Crystalline Short-Chain Polymer Electrolytes
- BookEnglish2007
Publisher, publication year, extent ...
- Uppsala :Acta Universitatis Upsaliensis,2007
- 50 s.
- electronicrdacarrier
Numbers
- LIBRIS-ID:oai:DiVA.org:uu-7853
- ISBN:9789155468859
- https://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-7853URI
Supplementary language notes
- Language:English
- Summary in:English
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- SwePubSwePub
Classification
Series
- Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology,1651-6214 ;303
Notes
- Polymer electrolytes are the most obvious candidates for safe "all-solid" Li-ion batteries and other electrochemical devices. However, they still have relatively poor ionic conductivities, which limits their wider adoption in commercial applications. It has earlier been the conventional wisdom that only amorphous phases of polymer electrolytes show usefully high ionic conduction, while crystalline forms are insulators. However, this has been challenged in the last decade by the discovery of highly organized, low-dimensional ion-conducting materials. Specifically, the crystalline phases of LiXF6.PEO6 exhibit higher ionic conductivities than their amorphous counterparts, with the Li-ion conduction taking place along the PEO channels. Polymer chain-length and chain-end registry has emerged as potentially significant in determining ionic conduction in these materials. Molecular Dynamics simulations have therefore been made of short-chain, monodisperse (Mw~1000), methoxy end-capped LiPF6.PEO6 to examine relationships between ion conduction and mode of chain-ordering. Studies of smectic and nematic arrangements of PEO chains have revealed that ion-transport mechanisms within the smectic planes formed by cooperative chain-end registry appear to be more suppressed by ion-pairing than in-channel conduction. Disorder phenomena in the chain-end regions emerge as a critical factor in promoting Li-ion migration across chain-gaps, as does the structural continuity of the PEO channels. Simulations incorporating ~1% aliovalent SiF62- dopants further suggest an increase in Li-ion conduction when the extra Li-ions reside within the PEO channels, with the anion influencing charge-carrier concentration through enhanced ion-pair formation. XRD techniques alone are shown to be inadequate in ascertaining the significance of the various short-chain models proposed; atomistic modelling is clearly a helpful complement in distinguishing more or less favourable situations for ion conduction. Though providing valuable insights, it must be concluded that this work has hardly brought us significantly closer to breakthroughs in polymer electrolyte design; the critical factors which will make this possible remain as yet obscure.
Subject headings and genre
- Atomic and molecular physics
- polymer electrolytes
- molecular dynamics
- ionic conductivity
- crystalline ordering
- polymer chain length
- smectic
- nematic
- Atom- och molekylfysik
Added entries (persons, corporate bodies, meetings, titles ...)
- Nordgren, Joseph (thesis advisor)
- Thomas, Josh (thesis advisor)
- Brandell, Daniel (thesis advisor)
- Brown, David,professorLaboratoire Matériaux Organiques à Propriétés Spécifiques, UMR 5041 CNRS - Université de Savoie, Le Bourget du Lac (opponent)
- Uppsala universitetInstitutionen för materialkemi (creator_code:org_t)
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