We explore the feasibility of growing epitaxial Ti-doped ?-Fe2O3 in which Ti(IV) substitutes for Fe(III) preferentially in one magnetic sublattice, but not the other. Such a structure has been predicted by first-principles theory to be energetically likely, and is expected to yield interesting and useful magnetic and electronic properties. However, we find that a majority of Ti dopants disperse and occupy random cation sites in both magnetic sublattices. Density functional theory predicts that the magnetically ordered and magnetically random structures are nearly isoenergetic.
Revised: August 18, 2014 |
Published: March 16, 2007
Citation
Droubay T.C., K.M. Rosso, S.M. Heald, D.E. Mccready, C.M. Wang, and S.A. Chambers. 2007.Structure, Magnetism and Conductivity in Epitaxial Ti-doped ?-Fe2O3 Hematite: Experiment and density functional theory calculations.Physical Review. B, Condensed Matter and Materials Physics 75, no. 10.PNNL-SA-48675.doi:10.1103/PhysRevB.75.104412