In situ oxygen atom erosion study of a polyhedral oligomeric silsesquioxane-polyurethane copolymer

The surface of a polyhedral oligomeric silsesquioxane-polyurethane copolyme r has been characterized in situ using X-ray photoelectron spectroscopy bef ore and after exposure to incremental fluences of oxygen atoms produced by a hyperthermal oxygen atom source, The data indicate that the atomic oxygen initially attacks the cyclopentyl groups that surround the polyhedral olig omeric silsesquioxane. cage most likely resulting in the formation and deso rption of CO and/or CO2 and H2O from the surface. The carbon concentration in the near-surface region is reduced from 72.5 at.% for the as-entered sur face to 37.8 at.% following 63 h of O-atom exposure at a flux of 2.0 x 10(1 3) O atom/cm(2)-s. The oxygen and silicon concentrations are increased with incremental exposures to the O-atom flux. The oxygen concentration increas es from 18.5 at.% for the as-entered sample to 32.6 at.% following the 63-h exposure, and the silicon concentration increases from 8.1 to 11.1 at.% af ter 63 h. The data reveal the formation of a silica layer on the surface, w hich serves as a protective barrier preventing further degradation of the p olymer underneath with increased exposure to the O-atom flux.