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Kim, Youngsik
YK Research
Research Interests
  • Ionic conducting ceramic electrolyte membranes, energy conversion and storage materials and devices

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Reinvestigation of Li1-xTiyV1-yS2 Electrodes in Suitable Electrolyte: Highly Improved Electrochemical Properties

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Title
Reinvestigation of Li1-xTiyV1-yS2 Electrodes in Suitable Electrolyte: Highly Improved Electrochemical Properties
Author
Kim, YoungsikGoodenough, John B.
Keywords
electrochemical electrodes; electrochemistry; electrolytes; lithium compounds; secondary cells; sulphur compounds; titanium compounds; vanadium compounds
Issue Date
2009
Publisher
ELECTROCHEMICAL SOC INC
Citation
ELECTROCHEMICAL AND SOLID STATE LETTERS, v.12, no.4, pp.A73 - A75
Abstract
Reversible electrochemical intercalation of Li into the Li 1-xTiyV1-yS2 dichalcogenides, which was frustrated in the 1970s by the use of 1 M LiClO4 in propylene carbonate as the electrolyte, is reinvestigated with 1 M LiP F6 in ethylene carbonate:diethyl carbonate (1:1). The choice of the electrolyte allows full electrochemical cycling between MS2 and LiMS2 (M=V or Ti0.3V0.7). The as-prepared LizMS2 (z≈0.9) samples were fully lithiated after the first discharge, and from a subsequent charge of LiVS2 to VS2, the room-temperature solubility limits of the parent 3S phase, the Li-rich hexagonal phase, the intermediate α and Β phases, and the hexagonal Li-poor hexagonal phase have been determined. Introduction of Ti in LiTi0.3V 0.7S2 remarkably improves the capacity at high cycling rates and increases the voltage by about 0.2 V.
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DOI
10.1149/1.3070620
ISSN
1099-0062
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ECHE_Journal Papers
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