期刊
JOURNAL OF THE ELECTROCHEMICAL SOCIETY
卷 157, 期 9, 页码 A1007-A1015出版社
ELECTROCHEMICAL SOC INC
DOI: 10.1149/1.3457435
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Ionothermal synthesis has recently been used to prepare a fluorosulfate (LiFeSO(4)F) capable of reversibly intercalating Li at 3.6 V vs Li, making this material a serious contender to LiFePO(4) for HEV and electric vehicle applications. Although fluorosulfates are made from low cost and abundant starting materials, their synthesis is costly because of the use of ionic liquids as synthetic medium. Herein, we report a solid-state process by which LiFeSO(4)F can be synthesized without the use of ionic liquids but at the expense of both longer reaction time and weakly contaminated samples. Additionally, we show how powerful Mossbauer spectroscopy can be in the optimization of the various stages of electrode preparation as shown through the synthesis of LiFeSO(4)F and its implementation into an electrode. The importance of having Fe(3+)-free hydrated precursors to routinely obtain pure LiFeSO(4)F samples is shown together with the need to optimize ballmilling conditions to preserve Fe(3+)-free LiFeSO(4)F composites. Samples prepared via this low temperature solid-state process show battery performances approaching those of samples prepared using ionic liquids as synthetic medium. Furthermore, this process can be extended to the synthesis of the other members of the fluorosulfates AMSO(4)F family with A = Li, Na and M = Fe, Co, and Ni. (C) 2010 The Electrochemical Society. [DOI: 10.1149/1.3457435] All rights reserved.
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