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Electrochimica Acta, Vol.46, No.7, 941-951, 2001
Lithium nickel oxyfluoride (Li1-zNi1+zFyO2-y) and lithium magnesium nickel oxide (Li1-z(MgxNi1-x)(1+z) O-2) cathodes for lithium rechargeable batteries Part I. Synthesis and characterization of bulk phases
Li1 - zNi1 + zFyO2 - y (0 less than or equal to y less than or equal to 0.2) and Li1 - z(MgxNi1 - x)(1 + z)O-2 {0 < x 0.15} were synthesized by partially substituting oxide anions with F- and Ni cations with Mg2+, respectively. The heavily fluoridated samples showed a high degree of cation disorder resulting from the increase in Ni2+ nickel ions at the Li sites. The linear dependence of Lon the c(h)/a(h) ratio (based on Rougier's work Rougier, Gravereau, Delmas, J. Electrochem. Sec. 143 (1996) 1168) was used to estimate the extent of cation disorder in the layered structure. For lithium magnesium nickel oxides, the substitution has resulted in some oxygen non-stoichiometry. A simple argument based on the;values suggests increasing presence of Mg2+ cations in the Li layer at high degress of Mg substitution. Elemental analysis confirmed the increase in lithium deficiencies with increasing amounts of substituents in the layered structure. (C) 2001 Elsevier Science Ltd. All rights reserved.
Keywords:lithium nickel oxide;anion substitution;cation substitution;fluorine and magnesium;lithium-ion battery