1. FTIR and Raman Study of the LixTiyMni1-yO2 (y =0, 0.11) Cathodes in Methyipropyl Pyrrolidinium Bis(fluoro-sulfonyl)imide, LiTFSI Electrolyte.
- Author
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Hardwick, Laurence J., Saint, Juliette A., Lucas, Ivan T., Doeff, Marca M., and Kostecki, Robert
- Subjects
CATHODES ,ELECTROLYTES ,RAMAN spectroscopy ,FOURIER transforms ,ELECTROCHEMISTRY ,CHEMISTRY - Abstract
This work demonstrates the protective effect of partial titanium substitution in Li
x Ti0.11 Mn0.89 O2 against surface decomposition in room-temperature ionic liquid (RTILs) cells. Raman microscopy and reflectance Fourier transform IR (FUR) spectroscopy were used to analyze electrodes recovered from cycled Li/Lix Tiy Mn1-y O2 (y = 0, 0.11) cells containing the 0.5 mol/kg LiTFSI in P13 FSI RTIL electrolyte. [TFSI = bis(trifluoromethanesulfonyl)imide.] Raman and FTIR spectra of cycled Lix MnO2 cathodes showed many distinct bands that can be attributed to both the electrolyte and electrode decomposition products. The thickness of the amorphous porous layer on the Lix MnO2 cathode increased during cycling. The surface degradation of Lix MnO2 and precipitation of electrolyte decomposition products contributed to the film growth. Improved cycling behavior was observed in cells containing Lix Ti0.11 Mn0.89 O2 , yet Raman spectroscopy also showed possible surface degradation. The FTIR spectra of cycled Lix MnO2 and Lix Ti0.11 Mn0.89 O2 cathodes displayed bands characteristic for LiSO3 CF3 and Li2 NSO2 CF3 , which originate from the reaction of the TFSI anion with traces of water present in the cell. [ABSTRACT FROM AUTHOR]- Published
- 2009
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