A method for a column-by-column EELS quantification of barium lanthanum ferrate

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)


  • Judith Lammer
  • Christian Berger
  • Stefan Löffler
  • Daniel Knez
  • Paolo Longo
  • Gerald Kothleitner
  • Ferdinand Hofer
  • Georg Haberfehlner
  • Werner Grogger


Externe Organisationseinheiten

  • Technische Universität Wien
  • Technische Universität Graz
  • Gatan Inc.


High-resolution STEM-EELS provides information about the composition of crystalline materials at the atomic scale, though a reliable quantitative chemical analysis is often hampered by zone axis conditions, where neighbouring atomic column intensities contribute to the signal at the probe position. In this work, we present a procedure to determine the concentration of two elements within equivalent atomic columns from EELS elemental maps – in our case barium and lanthanum within the A-sites of Ba 1.1La 1.9Fe 2O 7, a second order Ruddlesden-Popper phase. We took advantage of the large changes in the elemental distribution from column to column and introduced a technique, which substitutes inelastic scattering cross sections during the quantification step by using parameters obtained from the actual experiment. We considered channelling / de-channelling effects via inelastic multislice simulations and were thereby able to count occupancies in each atomic column. The EELS quantification results were then used as prior information during the Rietveld refinement in XRD measurements in order to differentiate between barium and lanthanum.


Frühes Online-Datum26 Jan 2022
StatusVeröffentlicht - Apr 2022