The dynamics of the electrooxidation of adsorbed CO, COads, on polycrystalline Pt microelectrodes has been examined in CO-saturated 0.5 M H2SO4 and 0.5 MIIClO4 aqueous solutions, using in situ, time-resolved, normalized differential reflectance spectroscopy (lambda 633 nm). Attention was focused on the unique dependence of COads oxidation on the potential at which the adsorbed full CO monolayer is assembled (i.e., hydrogen adsorption/desorption vs the double-layer region) using both fast linear scan voltammetry and potential step techniques. As evidenced from the data collected, COads oxidation at a fixed potential proceeds at slower rates when the monolayer is formed in the doublelayer region compared to when it is formed in the hydrogen adsorption/desorption region. Possible explanations for this effect are discussed.