High density adsorbed oxygen on Rh(111) and enhanced routes to metallic oxidation using atomic oxygen

摘要

Exposure of Rh(111) to atomic oxygen leads to the facile formation of a full-coverage and ordered (1 * 1)-O monolayer which is stable at room temperature. This result differs markedly from the half-coverage (2 * 1)-O overlayer which forms at saturation when using molecular oxygen. This demonstrates that kinetic rather than thermodynamic constraints inhibit the formation of dense oxygen overlayers with O_2 is the oxidant. We also report that O absorption into the bulk proceeds much more readily when using O rather than O_2, a finding with direct implications for enhanced methods of low-temperature metallic oxidation. These results demonstrate that there are important fundamental differences in the way in which low-energy beams of atomic and molecular oxygen interact with metals.