Mm. Thackeray et al., RAMSDELLITE-MNO2 FOR LITHIUM BATTERIES - THE RAMSDELLITE TO SPINEL TRANSFORMATION, Electrochimica acta, 38(9), 1993, pp. 1259-1267
A pure and highly crytalline form of ramsdellite-MnO2 has been synthes
ized by acid treatment of the spinels LiMn2O4 and Li2Mn4O9 at 95-degre
es-C. Although the ramsdellite-MnO2 framework remains intact on lithia
tion at 70-degrees-C, the hexagonally-close-packed oxygen array buckle
s towards a cubic-close-packed structure to accommodate the inserted l
ithium ions. The reaction is reversible but the instability of the str
ucture on cycling limits the utility of ramsdellite-MnO2 as a recharge
able electrode in lithium cells. The ramsdellite structure can be stab
ilized by reaction with LiOH or LiNO3 at 300-400-degrees-C; this react
ion, which displaces manganese ions from the MnO2 framework into inter
stitial octahedral sites generates spinel-related domains that coexist
with the lithiated ramsdellite phase. At 300-degrees-C, under vacuum,
the lithiated ramsdellite phase Li0.5MnO2 transforms to the spinel Li
Mn2O4; at 300-400-degrees-C, in air, it oxidizes slowly and transforms
to a defect spinel LiMn2O4+delta (0 < delta less-than-or-equal-to 0.5
) via an intermediate compound. A mechanism for the ramsdellite-spinel
transition is proposed.