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Beilstein J. Nanotechnol. 2015, 6, 47–59, doi:10.3762/bjnano.6.6
Figure 1: Powder XRD pattern of Mn(II) glycolate particles synthesized for 7 h; literature assignments [35] (blac...
Figure 2: a) SEM and b) and c) TEM images of the Mn(II) glycolate particles. Particles with broken outer shel...
Figure 3: In situ XRD patterns recorded in a pure O2 flow while heating the Mn(II) glycolate precursor to 700...
Figure 4: Powder XRD patterns of the manganese oxide particles obtained after calcination of the Mn(II) glyco...
Figure 5: Powder XRD patterns of the Mn5O8 particles obtained by calcination of Mn(II) glycolate for 5 h at 4...
Figure 6: a) TGA measurements recorded while heating the Mn(II) glycolate precursor up to 700 °C at 2 K/min i...
Figure 7: TEM images of the a) Mn3O4, b) Mn5O8, and c) and d) α-Mn2O3 samples.
Figure 8: a) N2 adsorption–desorption isotherms (volume adsorbed versus relative pressure, P/P0) and b) the c...
Figure 9: Linear sweep voltammograms of pure carbon powder (grey), Mn3O4/C (black), Mn5O8/C (red) and α-Mn2O3...