Add to ORKGWe report photoemission studies of ultrathin films of the minority-spin conductor, Fe3O4 on a Cu(001) substrate. Fe films are deposited at room temperature and oxidized at 810 K in 10-6 Torr O2. For Fe films less than 2 ML thick, LEED and STM measurements show that oxidation produces mostly an FeO(111) while thicker Fe layers give Fe3O4(111). Photoemission reveals that there is a distinct electronic structure for these two phases. There are also significant differences between the electronic structures of ultrathin oxide films and those of corresponding bulk oxides. © 2000 American Institute of Physics
Epitaxial Fe3O4(111) films were grown onto a Pt(111) substrate by repeated cycles of iron deposition...
The oxidation and reduction of iron thin films deposited on Pt(100) surfaces were investigated by us...
Epitaxial Fe3O4(111) films were grown onto a Pt(111) substrate by repeated cycles of iron deposition...
In this investigation, I have focused on understanding the structure and morphology of ultrathin iro...
The chemical states of Fe-oxide films deposited on Pt(110) surfaces were investigated by using X-ray...
The surface and interface structure as well as the electronic properties of thin epitaxial Fe3O4(111...
The work described in this dissertation is a study of the relationship between structural, electroni...
We have grown an ultra-thin film of iron oxide by oxidising a smooth epitaxial 5 ML Fe film which wa...
Ultrathin transition metal oxide films exhibit unique physical and chemical properties not observed ...
High-temperature oxidation of iron thin films deposited on Pt(100) surfaces was studied by using X-r...
Ultrathin transition metal oxide films exhibit unique physical and chemical properties not observed ...
The initial oxidation of Fe(100) at 400 degrees C has been studied by X-ray photoelectron spectrosco...
In this investigation, I have focused on understanding the structure and morphology of ultrathin iro...
Iron oxide films epitaxially grown on close-packed metal single crystal substrates exhibit nearly-pe...
Iron oxide films epitaxially grown on close-packed metal single crystal substrates exhibit nearly-pe...
Epitaxial Fe3O4(111) films were grown onto a Pt(111) substrate by repeated cycles of iron deposition...
The oxidation and reduction of iron thin films deposited on Pt(100) surfaces were investigated by us...
Epitaxial Fe3O4(111) films were grown onto a Pt(111) substrate by repeated cycles of iron deposition...
In this investigation, I have focused on understanding the structure and morphology of ultrathin iro...
The chemical states of Fe-oxide films deposited on Pt(110) surfaces were investigated by using X-ray...
The surface and interface structure as well as the electronic properties of thin epitaxial Fe3O4(111...
The work described in this dissertation is a study of the relationship between structural, electroni...
We have grown an ultra-thin film of iron oxide by oxidising a smooth epitaxial 5 ML Fe film which wa...
Ultrathin transition metal oxide films exhibit unique physical and chemical properties not observed ...
High-temperature oxidation of iron thin films deposited on Pt(100) surfaces was studied by using X-r...
Ultrathin transition metal oxide films exhibit unique physical and chemical properties not observed ...
The initial oxidation of Fe(100) at 400 degrees C has been studied by X-ray photoelectron spectrosco...
In this investigation, I have focused on understanding the structure and morphology of ultrathin iro...
Iron oxide films epitaxially grown on close-packed metal single crystal substrates exhibit nearly-pe...
Iron oxide films epitaxially grown on close-packed metal single crystal substrates exhibit nearly-pe...
Epitaxial Fe3O4(111) films were grown onto a Pt(111) substrate by repeated cycles of iron deposition...
The oxidation and reduction of iron thin films deposited on Pt(100) surfaces were investigated by us...
Epitaxial Fe3O4(111) films were grown onto a Pt(111) substrate by repeated cycles of iron deposition...