Physics of Solid Surfaces pp 295-295 | Cite as
Decoration of domain boundaries: binary oxides: Fe3O4
Chapter
Abstract
In this chapter the decoration of domain boundaries in Fe3O4 surface using various methods are discussed in detail.
Download
chapter PDF
See Table 64.1.
Table 64.1
Fe3O4
| Miller index | Superstructure | Deposit | Sample preparation | Deposition technique | Major experimental techniques | Supporting experimental techniques | Results | Ref. | Fig. |
|---|---|---|---|---|---|---|---|---|---|
| Remarks | |||||||||
| (001) | (√2 × √2) R45° | H | Ar+ ISA (1 keV/700 °C, 2 × 10−6 mbar O2) | − | STM | LEED DFT+U | Decoration of APDBs by OH groups due to H adsorbed from residual gas | [12Par] |
Symbols and abbreviations
| Short form | Full form |
|---|---|
| ISA | ion sputtering and annealing |
| STM | scanning tunneling microscopy |
| LEED | low-energy electron diffraction |
| DFT+U | density functional theory with Hubbard U parameter for electron correlation |
| APDB | antiphase domain boundary |
References
- [12Par]Parkinson, G.S., Manz, T.A., Novotný, Z., Sprunger, P.T., Kurtz, R.L., Schmid, M., Sholl, D.S., Diebold, U.: Phys. Rev. B85, 195450 (2012)ADSCrossRefGoogle Scholar
Copyright information
© Springer-Verlag GmbH Germany 2018