Reductive dissolution of microparticulate manganese oxides

Electrochemical dissolution of immobilised microparticulate Mn(III,IV) oxid es in slightly acidic solution (pH 4.4) was found to be a very general reac tion, which is responsible for well-defined voltammetric peaks. Dissolution of six Mn(III,IV) oxides is initiated by the reduction of Mn(IV) to Mn(III ) in the solid phase. which is followed by a massive dissolution via furthe r reduction of Mn(III) to Mn(II), which finally yields soluble Mn2+. The re activity of manganese oxides depends on their structure: the most reactive are amorphous (delta-MnO2) and layered structures (birnessite); more resist ant toward reductive dissolution are alpha- and lambda-MnO2 and electrochem ical manganese dioxide; and least reactive is beta-MnO2. Reductive dissolut ion of LiMn2O4 resembles that of lambda-MnO2, whereas CaMnO3 dissolves via a different reaction mechanism.