Chemisorption and multilayer adsorption of SO2 on Ag(111) and Ag(110)

Thermal energy atom scattering (TEAS) is used to determine the initial sticking probability So for dissociative chemisorption of Oe on Ag( I 1 I ). Mixed beams of He and O2 are used to study Se as a function of energy of the molecule (MBTEAS) At thermal energies S, is about 3.5 x 10m6. It drops to i

The dissociative chemisorption of molecular D 2 on Ag is reported for the first time. Dissociation on the Ag(111) surface is highly activated with an approximately exponential dependence on the energy of the incident molecules, the initial sticking probability increasing from = 10 -7 at 230 meV to 1

Chlorine chemisorbs rapidly on Ag(l10) at 300 K to a saturation coverage of about one monolayer and with a sticking probability of order unity. The corresponding work function shift is i-1.7 eV. XP and UP spectra are awsistent with the presence of a single kind of chemisorbed species. It appears tha

Simple and well-defined model AgX surfaces are useful to illuminate a variety of surface-related phenomena associated with AgX microcrystals in a different perspective with fewer experimental impediments. From this viewpoint, we discuss a couple of pseudo-AgX monolayers that can be organized on a hi