Four polymorphs of MnO 2 , i.e., α, β, ε and ramsdellite, have been lithiated with LiI solutions to give Li x MnO 2 (0.4<x<0.7). Heating of these phases always results in spinel formation. β- and ε-MnO 2 are more easily converted into spinels, whereas the larger tunnels of α- and ramsdellite-MnO 2 allow limitation of the Li-Mn repulsion causing the structural change. The formation of such by-products as Mn 2 O 3 and Li 2 MnO 3 has been demonstrated by X-ray and thermogravimetric and differential thermal analyses. Solid-state reactions of these polymorphs (with LiOH) also give rise to Mn 2 O 3 -contaminated spinels, in spite of the stoichiometric ratios. The electrochemical characteristics, as determined mainly by potential step voltammetry in the 4 V range, are similar to those of conventionally prepared spinels but the presence of by-products limits the available capacity.