Effect of flame-retarding additives on surface chemistry in Li-ion batteries
journal contribution
posted on 2011-01-01, 00:00 authored by N Nam, I Park, J G Kim, H Kim, S MoonThis study examined the properties of 1 wt.% vinylene carbonate, vinyl ethylene carbonate, and diphenyloctyl phosphate additive electrolytes as a promising way of beneficially improving the surface and cell resistance of Li-ion batteries. The additive electrolytes were dominant both in surface formation and internal resistance. In particular, electrochemical impedance spectroscopy, Fourier transform infrared spectroscopy and scanning electron microscopy confirmed that diphenyloctyl phosphate is an excellent additive to the electrolyte in the Li-ion batteries due to the improved co-intercalation of the solvent molecules.
History
Journal
ECS transactionsVolume
33Issue
23Pagination
63 - 71Publisher
Electrochemical SocietyLocation
Pennington, N.J.Publisher DOI
ISSN
1938-5862eISSN
1938-6737Language
engNotes
This paper was presented at ECS 2008 : Proceedings of the 218th Society for Solid State and Electrochemical Science and Technology Meeting, 2010Publication classification
C1.1 Refereed article in a scholarly journalCopyright notice
2011, ECS - The Electrochemical SocietyUsage metrics
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No categories selectedKeywords
cell resistanceco-intercalationdiphenyloctyl phosphateethylene carbonateflame-retarding additiveinternal resistanceLi-ion batteriessolvent moleculessurface formationVinylene carbonatesadditiveselectrochemical impedance spectroscopyelectrolytesethyleneflame resistancefourier transform infrared spectroscopyScanning electron microscopysurface chemistryelectrochemical cells
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