Abstract
We report the synthesis and electrochemical properties of Co-substituted manganese oxide nanosheets (Mn1–xCoxO2). Polycrystalline samples of layered Na0.6Mn1–xCoxO2 (x = 0.2–0.5) were synthesized as starting materials. A linear decrease in the lattice constant a with increasing Co content supported the successful substitution of Co3+ ions for Mn3+ ions in the host layers. Acid-exchange treatment of the Na0.6Mn1–xCoxO2 powders resulted in the formation of H–Mn1–xCoxO2 while preserving the Mn/Co ratio and layered structure. Exfoliation of H–Mn1–xCoxO2 was achieved by reaction with tetra–n–butylammonium ions, yielding unilamellar Mn1–xCoxO2 (x = 0.2–0.5) nanosheets with a thickness of 0.8 nm. The optical absorption peak of the obtained Mn1–xCoxO2 nanosheets was continuously blueshifted as the Co content increased. The Mn1–xCoxO2 nanosheets exhibited well-defined redox peaks, which were shifted to a negative potential with increasing Co content. These results suggest that the 3d orbitals of Mn and Co are mixe...
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