The Reaction Mechanism of Lithium Insertion in Vanadium Tetraphosphide A Possible Anode Material in Lithium-Ion Batteries

Lithium-free vanadium tetraphosphide was synthesized and electrochemical characterizations during cycling were carried out. Based on differential capacity plots (DCP) and X-ray analyses, a four-step reaction mechanism was suggested. The reaction sequences are topotactic lithium insertion into the VP...

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Veröffentlicht in:	Journal of the Electrochemical Society 2005-01, Vol.152 (8), p.A1475-A1478
Hauptverfasser:	Kim, Young-Ugk, Cho, Ung Won, Sohn, Hun-Joon
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Sprache:	eng
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container_end_page	A1478
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container_title	Journal of the Electrochemical Society
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creator	Kim, Young-Ugk Cho, Ung Won Sohn, Hun-Joon
description	Lithium-free vanadium tetraphosphide was synthesized and electrochemical characterizations during cycling were carried out. Based on differential capacity plots (DCP) and X-ray analyses, a four-step reaction mechanism was suggested. The reaction sequences are topotactic lithium insertion into the VP4, phase transformation from monoclinic Li3VP4 to cubic Li6VP4 phase, Li3P and VP formation by decomposition, and another lithium insertion into VP as the potential is lowered. Volume expansion of active material was expected from crystallographic data, and confirmed by scanning electron microscope observation during the second reaction step. In monoclinic sustaining range, VP4 showed an excellent cycling performance with a relatively large reversible capacity.
doi_str_mv	10.1149/1.1938047
format	Article
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Based on differential capacity plots (DCP) and X-ray analyses, a four-step reaction mechanism was suggested. The reaction sequences are topotactic lithium insertion into the VP4, phase transformation from monoclinic Li3VP4 to cubic Li6VP4 phase, Li3P and VP formation by decomposition, and another lithium insertion into VP as the potential is lowered. Volume expansion of active material was expected from crystallographic data, and confirmed by scanning electron microscope observation during the second reaction step. 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Based on differential capacity plots (DCP) and X-ray analyses, a four-step reaction mechanism was suggested. The reaction sequences are topotactic lithium insertion into the VP4, phase transformation from monoclinic Li3VP4 to cubic Li6VP4 phase, Li3P and VP formation by decomposition, and another lithium insertion into VP as the potential is lowered. Volume expansion of active material was expected from crystallographic data, and confirmed by scanning electron microscope observation during the second reaction step. In monoclinic sustaining range, VP4 showed an excellent cycling performance with a relatively large reversible capacity.</abstract><doi>10.1149/1.1938047</doi></addata></record>
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title	The Reaction Mechanism of Lithium Insertion in Vanadium Tetraphosphide A Possible Anode Material in Lithium-Ion Batteries
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