• Title of article

    Preparation of a well ordered iron oxide on Cu(1 1 0)

  • Author/Authors

    Pflitsch، نويسنده , , Christian and David، نويسنده , , Rudolf and Verheij، نويسنده , , Laurens K. and Franchy، نويسنده , , René، نويسنده ,

  • Issue Information
    هفته نامه با شماره پیاپی سال 2001
  • Pages
    11
  • From page
    32
  • To page
    42
  • Abstract
    We have grown an ultra-thin film of iron oxide by oxidising a smooth epitaxial 5 ML Fe film which was deposited on Cu(1 1 0). In order to prevent roughening of the Fe film, the oxidation of the iron took place at 130 K. At low oxygen exposures, <2×10−6 mbar s, a surface oxide forms. After completion of the surface oxide layer a disordered Fe2O3 film grows. Upon annealing, ordering of the oxide film is observed at temperatures above 400 K. A Fe2O3 film with a very well ordered surface could be produced by heating the disordered oxide film. The ordered oxide surface shows a (21×6) reconstruction, which is interpreted as a coincidence lattice of the Cu(1 1 0) substrate and a Fe2O3(1 1 1) lattice which is slightly distorted due to a misfit with the substrate (0.7–2%) and to a misalignment between the major crystallographic axes of the lattices. When the oxide film is slowly heated, decomposition of the oxide takes place in two stages: Between 550 and 700 K, the Fe2O3 film decomposes due to a reaction of this oxide with a buried layer of Fe or FeO. Between 700 and 800 K a further decomposition of the Fe2O3 is found, but now accompanied by desorption of oxygen and solution of Fe in the Cu substrate. The amount of oxygen and iron on the surface keeps on decreasing after the almost complete decomposition of Fe2O3 (at 800 K) until a new phase is obtained which is stable between 950 and 1100 K. This high temperature phase (T>950 K) shows a (n×8) reconstruction with n=17–19. This reconstruction is interpreted as the result of a coincidence lattice of the Cu(1 1 0) substrate with a distorted FeO(1 1 1) lattice.
  • Keywords
    iron oxide , Iron , epitaxy , surface structure , Copper , GROWTH , morphology , Roughness , and topography , Atom–solid scattering and diffraction – elastic , Auger electron spectroscopy
  • Journal title
    Surface Science
  • Serial Year
    2001
  • Journal title
    Surface Science
  • Record number

    1680495