Journal
PHYSICAL REVIEW B
Volume 62, Issue 23, Pages 15978-15988Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.62.15978
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Chemisorption of an O-2 molecule from the topmost layer to deeper subsurface layers on the Si(100) surface is studied by employing the spin-polarized generalized-gradient approximation. The calculated results reveal that an O-2 molecule is weakly adsorbed on a clean Si(100)-surface with an initial spin-tripler state, but is adiabatically chemisorbed with a spin-state conversion, when an O-2 molecule arrives at the surface with a low incident energy. Barrierless back-bond oxidation has been found to occur through dissociative chemisorption with a spin-orbit interaction followed by O-atom migration to back-bond centers. According to the depth from the surface, energy barriers are found to be increasingly necessary for chemisorption of an O-2 molecule in subsurface layers.
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