Metallic
materials with unique surface structure have attracted
much attention due to their unique physical and chemical properties.
However, it is hard to prepare bulk metallic materials with special
crystal faces, especially at the nanoscale. Herein, we report an efficient
method to adjust the surface structure of a Cu plate which combines
ion implantation technology with the oxidation–etching process.
The large number of vacancies generated by ion implantation induced
the electrochemical oxidation of several atomic layers in depth; after
chemical etching, the Cu(100) planes were exposed on the surface of
the Cu plate. As a catalyst for acid hydrogen evolution reaction,
the Cu plate with (100) planes merely needs 273 mV to deliver a current
density of 10 mA/cm2 because the high-energy (100) surface
has moderate hydrogen adsorption and desorption capability. This work
provides an appealing strategy to engineer the surface structure of
bulk metallic materials and improve their catalytic properties.
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