OVERPOTENTIAL-CONTROLLED NUCLEATION OF NI ISLAND ARRAYS ON RECONSTRUCTED AU(111) ELECTRODE SURFACES

In situ scanning tunneling microscopy observations on Ni electrodeposi tion on reconstructed Au(111) electrodes are presented, which reveal t hat Ni nucleation proceeds in three distinct, potential-dependent step s: place exchange of Ni with Au atoms at the elbows of the herringbone reconstruction (overpotential eta greater than or equal to 0 mV), nuc leation of Ni islands on top of these substitutional Ni atoms (eta gre ater than or equal to 80 mV), and nucleation at the step edges of the Au substrate (eta greater than or equal to 100 mV). This allows one to selectively control the growth via the potential and, in particular, to create nanostructures composed of regularly spaced Ni islands.