Quantification of the EELS near‐edge structures to study Mn doping in oxides Conferences

abstract

• SUMMARYThe L3 to L2 white‐line intensity ratios of Mn in solid solution in yttria‐stabilized zirconia and in Mn oxide standards are measured using different approaches. We show that the L3/L2 ratio alone cannot be used as a means of deducing the oxidation state and that a combined analysis of this ratio and the normalized white‐line intensity is required to retrieve the ionicity and magnetic state of the Mn dopant with respect to reference standards. Changes as a function of composition are measured and these are discussed in terms of variations in crystal field parameters associated with possible vacancy interaction. From the oxygen near‐edge structure we analyse the localization of the extra electron charge introduced by the dopant and discuss the possible effects of the association of this extra charge with oxygen vacancies in relation to the macroscopic ion conductivity.

authors

• Botton, Gianluigi
• APPEL, CC
• HORSEWELL, A
• STOBBS, WM

status

• published 

publication date

• December 1995

has subject area

• 0204 Condensed Matter Physics (FoR)
• 0601 Biochemistry and Cell Biology (FoR)
• 0912 Materials Engineering (FoR)
• Microscopy (Science Metrix)

published in

• Journal of Microscopy  Journal

presented at event

• Archi Howie 60th Birthday Symposia, held at the Condensed Matter and Materials Physics Conference (CMMP 94)  Conference

keywords

• Microscopy
• Mn
• SPECTROSCOPY
• STATE
• Science & Technology
• TRANSITION-METAL OXIDES
• Technology
• X-RAY-ABSORPTION
• conductivity
• doping
• electron energy-loss spectroscopy
• nearedge structures
• oxides
• vacancies
• white-line ratios
• yttria-stabilized zirconia

Digital Object Identifier (DOI)

• 10.1111/j.1365-2818.1995.tb03680.x

start page

• 211

end page

• 216

volume

• 180

issue

• 3