Surface characterisation of chemically reduced electrolytic manganese dioxide

In this work a titration technique has been used to characterize the amphoteric surface properties of a series of chemically reduced electrolytic manganese dioxide (EMD) samples (MnO1.97 to MnO1.50). The surface of the EMD was found to consist of independent acidic and basic hydroxyl groups, which were able to be characterised by their respective equilibrium constants and site concentrations. For this chemically reduced series KbKb varied from (1.81–8.43)×10−10(1.81–8.43)×10−10 as reduction proceeded, with the corresponding basic site concentration varying from (0.20–2.50)×10−4 mol/m2(0.20–2.50)×10−4 mol/m2 over the pH range considered. KaKa was ranged from (1.23–9.23)×10−6(1.23–9.23)×10−6 over the reduction range considered. The increase in KbKb suggested a weakening of the MnO bond via the introduction of the larger Mn3+ ions which will increase the length of this bond. Weakening the MnO bond results in a corresponding strengthening of the OH bond giving the surface hydroxyl group a basic nature which is supported by the increasing basic site concentration. For the samples with an x in MnOx value above 1.71 the total number of acidic sites decreased which supports the increase in the concentration of basic sites; however, below 1.71, the surface concentration of acidic sites increases slightly, which can be rationalised by the fact that the pyrolusite domains within the EMD (with relatively stronger MnO bonds) are accessible at this stage of the reduction. The number of surface oxide sites (NsNs) and surface hydroxyl sites (Ns(OH)) were calculated crystallographically, and from the sum of the acid and basic hydroxyl groups determined by titration. Both methods produced data with the same order of magnitude, as well as indicated the expected increase in the number of surface hydroxyl groups with increasing degree of reduction. Electrochemical analysis of the samples in 9 M KOH showed the expected decrease in capacity with an increase in the degree of reduction. It also showed a decrease in the amount of charge contributed to the overall homogeneous reduction by Mn4+ ions in surface defects and within the ramsdellite domains over the entire x in MnOx range. However, the amount of charge contributed from the pyrolusite domains remained unchanged until after a x in MnOx value of 1.71.

A titration technique has been used to characterize the amphoteric behaviour of a range of chemically reduced electrolytic manganese dioxide samples.Figure optionsDownload as PowerPoint slide