Vanadium oxide xerogels V2O5 . nH2O are investigated as insertion elec
trode materials for secondary lithium batteries. Lithium insertion int
o these materials is shown to be fully reversible when all the loosely
bound water is removed by proper heat treatments. The disordered xero
gels obtained after heat treatment at 100-degrees-C in vacuum, where t
he reversibly bound water is removed, are able to insert nearly 1.5 Li
/V2O5. The more crystalline films obtained after heat treatment at 300
-degrees-C, where most of the chemically bound water is removed, inser
t up to 2 Li/V2O5 at potentials above 1.5 V vs. Li, corresponding to a
stoichiometric energy density of 730 Wh kg-1. Analysis of differentia
l capacity curves show that lithium ions are accommodated at sites in
the xerogel host that are different from the sites occupied in orthorh
ombic V2O5. It is also noted that the xerogel host is more stable towa
rds lithium insertion, retaining its structure after repeated cycling
to a depth of 2 Li/V2O5.