• Title of article

    From active to passive oxidation: O on Si 111/7=7

  • Author/Authors

    S. Hildebrandt )، نويسنده , , A. Kraus، نويسنده , , R. Kulla، نويسنده , , H. Neddermeyer، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    11
  • From page
    294
  • To page
    304
  • Abstract
    The interaction of oxygen with the Si 111.7=7 surface was studied by in situ real-time experiments in a high-temperature scanning tunneling microscope at temperatures between 350 and 6008C for oxygen partial pressures of 10y8 to 10y7 mbar during an exposure ranging from 0 to 200 L. The early adsorption stage 0–2 L.is dominated by the occurrence of dark adatom states. There are also small numbers of various other features such as bright and grey states which are partially reversible or show random walk behaviour. In the transition region between active and passive oxidation regimes 500–6008C, 10y8–10y7 mbar. we observe etching of step edges and holes and simultaneously homogeneous or heterogeneous oxide nucleation at surface defects with further lateral oxide growth affecting the next Si layer after terrace retraction. This competition leads to a rather rough surface morphology where the step edges are locally pinned by the oxide. The oxidation reaction towards the passive regime is characterized by the formation of a homogeneous thin oxide passivating film.on the entire surface without indications for an island growth mode from where further oxide growth proceeds slowly. From the temperature dependence of the step-flow mode etch rate in the active regime, we determine an activation energy of 1.6"0.2.eV which is comparable to the step edge detachment energy of atoms required for annealing of oxygen-induced vacancies on the terraces. q1999 Elsevier Science B.V. All rights reserved.
  • Keywords
    Scanning tunneling microscopy , Silicon , Si 111.7=7 , Oxygen , O2 , oxide , adsorption , Active oxidation , Passiveoxidation , Oxidation
  • Journal title
    Applied Surface Science
  • Serial Year
    1999
  • Journal title
    Applied Surface Science
  • Record number

    995245