L. Croguennec et al., NiO2 obtained by electrochemical lithium deintercalation from lithium nickelate: Structural modifications, J ELCHEM SO, 147(4), 2000, pp. 1314-1321
A study of the Li//LixNi1.02O2 system at high potential has shown the succe
ssive formation of two phases with O3 (AB CA BC) and O1 (AB) oxygen packing
s, respectively, near the NiO2 composition. For the LixNi1+zO2 phases with
z greater than or equal to 0.07, only the O3 packing is observed at the end
of lithium deintercalation: the extra nickel ions present in the interslab
spaces destabilize the O1 type packing. The nonhomogeneous distribution of
extra nickel ions from one interslab space to another lends to the presenc
e of stacking faults in both phases. Lithium can be reversibly reintercalat
ed into the NiO2 phase. Good stability is observed at low charge-discharge
rates during long-term cycling of the Li//LixNi1.02O2 system over a large p
otential range. This study also provided evidence fur inhumogeneity in the
starting material at the crystallite scale. The Li0.98Ni1.02O2 material cor
responds to a mixture of various phases with very similar stoichiometries.
The crystallites which are closest to the ideal stoichiometry form an O1 ty
pe phase which is stable at high potential, whereas those which are farthes
t from stoichiometry lead to an O1 type phase which is slowly transformed i
nto a new phase, characterized by an O3 type packing, through a Ni3+ migrat
ion from the slab to the interslab space. (C) 2000 The Electrochemical Soci
ety. S0013-4651(99)08-013-1. All rights reserved.