Abstract

In situ scanning tunneling microscopy observations on Ni electrodeposition on reconstructed Au(111) electrodes are presented, which reveal that Ni nucleation proceeds in three distinct, potential-dependent steps: place exchange of Ni with Au atoms at the elbows of the herringbone reconstruction (overpotential $\ensuremath{\eta}\ensuremath{\ge}0\mathrm{mV}$), nucleation of Ni islands on top of these substitutional Ni atoms ( $\ensuremath{\eta}\ensuremath{\ge}80\mathrm{mV}$), and nucleation at the step edges of the Au substrate ( $\ensuremath{\eta}\ensuremath{\ge}100\mathrm{mV}$). This allows one to selectively control the growth via the potential and, in particular, to create nanostructures composed of regularly spaced Ni islands.