PREPARATION, PHYSICAL AND STRUCTURAL CHARACTERIZATION OF LIMNO2 SAMPLES WITH VARIABLE CATIONIC DISORDER

Orthorhombic LiMnO2 samples, synthesized at high temperatures from a m ixture of LiOH . H2O and Mn2O3 under a reducing atmosphere, have been fully characterized. The morphology showed that important differences exist between two sets of materials: A-type materials prepared with a deficiency of LiOH with respect to the LiMnO2 stoichiometric compositi on and B-type materials prepared with an excess of LiOH. Bulk density variations were interpreted in terms of the occurrence of several lith ium and/or manganese salt impurities. From Rietveld refinements, and c ontrary to the previously described LiMnO2 structures, the present LiM nO2 samples exhibit a cationic disorder on the lithium and manganese s ites, with occupancy variations ranging from 3 to 12%. Finally, the fr equently occurring abnormal widening of the second diffraction line co uld be modelled and attributed to the mixing of a regular diffraction peak of the phase under study [the (110) reflection] and of some poorl y crystallized unreacted Mn2O3. These structural results can be used t o explain the electrochemical behaviour of the samples when employed a s cathodes in rechargeable lithium batteries.