Owing
to its abundance, high theoretical capacity, and low electrode
potential, zinc is one of the most important metallic anodes for primary
and secondary batteries such as alkaline and zinc–air batteries.
In the operation of zinc-based batteries, passivation of the anode
surface plays an essential role because the electrode potential of
zinc is slightly below that of the hydrogen evolution reaction. Therefore,
it is important to scrutinize the nature of the passivation film to
achieve anticorrosion inside batteries. Herein, the potential-dependent
formation and removal of the passivation film during the deposition
and dissolution of zinc metal in aqueous electrolytes are detected
via electrochemical quartz crystal microbalance analysis. Film formation
was not noticeable in hydroxide-based electrolytes; however, sulfate-based
electrolytes induced potential-dependent formation and removal of
the passivation film, enabling a superior coulombic efficiency of
99.37% and significantly reducing the rate of corrosion of the zinc-metal
anodes. These observations provide insights into the development of
advanced electrolytes for safe and stable energy-storage devices based
on zinc-metal anodes.
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