Surface, bulk, and interface electronic states of epitaxial BiFeO 3 films

Publication Type	Journal Article

Authors	J Zhang M Rutkowski L.W Martin T Conry Ramamoorthy Ramesh J.F Ihlefeld A Melville D.G Schlom L.J Brillson
DOI	10.1116/1.3130152
Abstract	The authors report on the depth-resolved cathodoluminescence spectroscopy studies of the surface, bulk, and interface-localized electronic states in the band gap of epitaxial BiFeO3 thin films. The BiFeO3 films show a near band edge emission at 2.7 eV and defect emissions at energies varying from 2.0 to 2.5 eV. The overall results clearly suggest that the electronic structure, especially the defect states and their spatial distributions, of BiFeO3 films are strongly dependent on the growth conditions and method, stoichiometry, and strain, so that understanding and controlling them are crucial to optimize BiFeO3 film properties. © 2009 American Vacuum Society.
Notes	cited By 15
Journal	Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures
Volume	27
Year of Publication	2009
Number	4
Pagination	2012-2014
ISSN Number	10711023
Keywords	Stoichiometry Spatial distribution Electronic states Electronic structure Band gaps Growth conditions Semiconducting bismuth compounds Cathodoluminescence spectroscopy Defect emission Defect state Depth-resolved Film properties Interface electronics Localized electronic state Near-band edge emissions
Research Areas	Ramesh Lab
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