The surface structures generated by oxidation-reduction cycles (ORCs)
on a well characterized silver (111) single crystal face have been exa
mined by in situ STM. The ORCs, carried out in aqueous KClO4, produce
surface structures which span from atomic-scale clusters to large-scal
e features with linear dimensions of some hundreds of nanometers. Whil
e the surface structures produced by the ORC are stable at the most ne
gative potentials, application of increasingly positive potentials cau
ses a rearrangement of the surface with progressive predominance of th
e large-scale features over the small-scale ones, quite probably by a
mechanism involving silver dissolution and redeposition of silver ions
. This increase in dimensions is accompanied by a decrease in the SERS
activity of the metal surface. The atomic-scale clusters, which are c
learly visible by in situ STM at far negative potentials, are responsi
ble for a substantial increase in Raman enhancement. Bumps with dimens
ions of the order of tens of nanometers, which are responsible for the
excitation of local modes, are shown by in situ STM to persist at -0.
5 V/SCE. However, a further positive shift in potential causes a decre
ase both in their number and in the SERS activity.