Produção Nacional
Structural models and core-level shifts of the oxidation of the Si(001) surface
2004; American Physical Society; Volume: 70; Issue: 23 Linguagem: Inglês
10.1103/physrevb.70.235321
ISSN1550-235X
AutoresJeverson Teodoro Arantes, R. H. Miwa, T. M. Schmidt,
Tópico(s)Catalytic Processes in Materials Science
ResumoA first-principles investigation of the oxygen adsorption processes on the Si(001) surface is presented. Our optimized full core potential calculations give nine energetically stable structural models for the suboxide ${\mathrm{Si}}^{1+}$, ${\mathrm{Si}}^{2+}$, and ${\mathrm{Si}}^{3+}$ components. Our computed initial state $\mathrm{Si}\phantom{\rule{0.3em}{0ex}}2p$ core-level shifts for the most stable configuration, of each ${\mathrm{Si}}^{n+}$ species, gives $\ensuremath{-}0.96$, $\ensuremath{-}1.89$, and $\ensuremath{-}2.28\phantom{\rule{0.3em}{0ex}}\mathrm{eV}$ for $n=1$, 2, and 3, respectively. These results are in good agreement with high-resolution photoemission spectra, which allow us to determine the structural model of each ${\mathrm{Si}}^{n+}$ species. Also we verified a connection between the adsorption energies of the structural models and the measured intensity ratios of each suboxide component. The calculated adsorption energies of the most stable structural model for each species, in decreasing order, are ${\mathrm{Si}}^{2+}$, ${\mathrm{Si}}^{1+}$, and ${\mathrm{Si}}^{3+}$, in agreement with experimental intensities for low ${\mathrm{O}}_{2}$ dose results.
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