Morphology–dependent electrochemical sensing properties of manganese dioxide–graphene oxide hybrid for guaiacol and vanillin

• MnO2 with different morphologies were prepared via facile methods.
• MnO2 are loaded on GO via simply grinding which have high solubility and stability.
• MnO2–GO exhibit high electrocatalytic activities depending on their shapes.
• MnO2–GO is first used to the determination of guaiacol and vanillin simultaneously.

Various morphologies of manganese dioxide (MnO2) electrocatalysts, including nanoflowers, nanorods, nanotubes, nanoplates, nanowires and microspheres were prepared via facile hydrothermal synthesis and precipitation methods. By simply grinding with graphene oxide (GO), MnO2 could be readily dissolved in water with high solubility and stability. The structures and electrochemical performances of these as–prepared MnO2–GO hybrids were fully characterized by various techniques, and the properties were found to be strongly dependent on morphology. As sensing materials for the simultaneous determination of guaiacol and vanillin for the first time, the nanoflowers–like MnO2, coupled with GO, exhibited relatively high sensitivity. The enhanced electrocatalytic activity was ascribed to the high purity, good crystallinity, and unique porous microstructure, which were favorable for transfer of electrons. These results may provide valuable insights for the development of nanostructured modified electrodes for next–generation high–performance electrochemical sensors.

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