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Preparation and structure of 1--8 monolayer thick epitaxial iron oxide films grown on Pt(111)

Journal Article · · Journal of Vacuum Science and Technology, A (Vacuum, Surfaces and Films); (United States)
DOI:https://doi.org/10.1116/1.578382· OSTI ID:6300831
;  [1]
  1. Center for Advanced Materials, Materials Sciences Division, Lawrence Berkeley Laboratory,Berkeley, CA (United States) Department of Chemistry, University of California, Berkeley, California 94720 (United States)
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Well ordered epitaxial iron oxide layers with FeO stoichiometry were grown onto Pt(111) single crystal substrates and characterized afterwards with low-energy electron diffraction (LEED) and Auger electron spectroscopy. They were prepared by first depositing iron from the vapor onto the substrate and then oxidizing it in 10[sup [minus]6] Torr of oxygen. At 1 monolayer coverage, a very stable structure with a hexagonal unit cell 15% larger than the platinum (1[times]1) substrate unit cell is formed, exhibiting a threefold symmetric LEED pattern. This pattern is consistent with a (8[times]8) superstructure, as 8 FeO(111)-(1[times]1) lattice spacings fit onto nine lattice spacings on the Pt(111)-(1[times]1) substrate surface due to the lattice mismatch. Above 2 monolayer coverage a hexagonal (2[times]2) structure with respect to the FeO(111)-(1[times]1) unit cell forms, which shows a sixfold symmetric LEED pattern revealing a lattice constant which is in agreement with that of the sodium chloride structure of bulk FeO. LEED beam intensity spectra as a function of the electron energy of these two LEED structures have been measured and are discussed with respect to their symmetry and their changes as a function of the overlayer thickness. The step structure on the surface of an 8 monolayer thick iron oxide film with a FeO(111)-(2[times]2) LEED pattern was studied by analyzing the LEED beam profiles. We observe steps one iron--oxygen bilayer high as well as one Pt(111) layer distance high. This indicates that only one type of atom termination exists on the FeO(111)-(2[times]2) surface.

DOE Contract Number:
AC03-76SF00098
OSTI ID:
6300831
Journal Information:
Journal of Vacuum Science and Technology, A (Vacuum, Surfaces and Films); (United States), Journal Name: Journal of Vacuum Science and Technology, A (Vacuum, Surfaces and Films); (United States) Vol. 11:4; ISSN 0734-2101; ISSN JVTAD6
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
360601* -- Other Materials-- Preparation & Manufacture
360602 -- Other Materials-- Structure & Phase Studies
ANNEALING
AUGER ELECTRON SPECTROSCOPY
CHALCOGENIDES
COHERENT SCATTERING
CRYSTAL STRUCTURE
DEPOSITION
DIFFRACTION
ELECTRON DIFFRACTION
ELECTRON SPECTROSCOPY
ELEMENTS
FILMS
HEAT TREATMENTS
IRON COMPOUNDS
IRON OXIDES
METALS
OXIDES
OXYGEN COMPOUNDS
PLATINUM
PLATINUM METALS
SCATTERING
SPECTROSCOPY
SURFACE COATING
THIN FILMS
TRANSITION ELEMENT COMPOUNDS
TRANSITION ELEMENTS
ULTRAHIGH VACUUM
VACUUM COATING