Journal of Physical Chemistry B, Vol.104, No.3, 548-553, 2000
Suppression of water formation over stepped Pt(335) by Au
A partial monolayer of Au strongly modifies the kinetics of water adsorption and formation on the stepped Pt(335) surface. The effects are more than passivation. With a Au coverage of 0.7 ML as measured by Auger spectroscopy, saturation H and O adsorption are only 15% and 8.5%. respectively, of their values on bare Pt, Adsorption at step sites is nearly eliminated. Water formation is reduced to 5% of its bare: Pt value: one-sixth of what would be expected if each Au atom blocked one site. Water formation on Pt has multiple reaction pathways. The partial Au layer eliminates only the low-temperature pathway. The PI recombination temperature is reduced relative to bare Pt, so H recombination competes with water formation and reduces its efficiency. The partial Au layer also changes the desorption spectrum of water. At low water coverage, there is a single desorption peak, intermediate in temperature between those seen on Pt and Au.
Keywords:HYDROGEN-OXYGEN REACTION;CO CHEMISORPTION PROPERTIES;SINGLE-CRYSTAL SURFACES;ULTRATHIN PD FILMS;PT(111) SURFACE;ADSORBEDHYDROXYL;ZIRCONIA SENSORS;CARBON-MONOXIDE;METAL-FILMS;ADSORPTION