Oxygen deficient spinels in the Li-Mn-O system

The ranges of Li+Fe+Mn composition in which single-phase microparticulate spinel oxides are formed by heating in air were determined. The aim was to reevaluate previously published reports on binary solid solutions between LiFe 5 O 8 and Li+Mn+O spinels by covering the whole possible range of (Li, F

Neutron powder diffraction has been carried out on two series of Li-Mn-O samples with spinel structure, which have been shown to lose oxygen with respect to initial stoichiometric spinels: (i) Li 1.05 Mn 2 O 4 quenched from 800 or 925°°C, (ii) ''Li 1.33 Mn 1.67 O '' (nominal) treated with ammonia ga

EPR of Mn 4ϩ is used to study the cation-distribution in octahedral sites of Li 4 Mn 5 O 12 spinel lattice. Analysis of the EPR line width in terms of magnetic dipole-dipole and exchange interactions points to two kinds of Mn 4ϩ in octahedral spinel sites: one of them has as first neighbours five pa

packed structures was further extended by Goodenough's group to 3-D materials with the spinel structure (3). It was Lithium manganospinels belonging to the LiMn 2 O 4 -Li 2 Mn 4 O 9 -Li 4 Mn 5 O 12 system were prepared by solid-state reac-shown that lithium could be intercalated into the spinels tio