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Bi4V2O11 and related compounds as positive electrode materials for lithium rechargeable batteries

✍ Scribed by M.E. Arroyo y de Dompablo; F. García-Alvarado; E. Morán

Publisher
Elsevier Science
Year
1996
Tongue
English
Weight
477 KB
Volume
91
Category
Article
ISSN
0167-2738

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✦ Synopsis

In the search for new intercalation electrode materials, several phases related to the compound Bi,V,O, , have been tested as positive electrodes in room temperature electrochemical lithium cells. Bi,V,O, , , Bi,,Pb,,V,O,, my and Bi,V,.8%*0, I-y are structurally similar compounds differing only from a microstructural point of view. Electrochemical lithium intercalation is not affected by such structural and compositional differences, since the performance of all these phases is equivalent. The surprising amount of 8 lithium ions per vanadium atom inserted in Bi,V,O,, during the first discharge at an average potential of 1.7 V implies a theoretical specific energy of 655 W h/Kg. In spite of this promising value, the irreversibility found after the first discharge slightly reduces the possibilities of these materials as positive electrodes in room temperature rechargeable lithium batteries. Even so, the energy density is high enough to consider the materials for future improvements.

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