Inorganics (Jul 2023)

XPS and NEXAFS Studies of Zn-Doped Bismuth Iron Tantalate Pyrochlore

  • Sergey V. Nekipelov,
  • Victor N. Sivkov,
  • Danil V. Sivkov,
  • Alexey M. Lebedev,
  • Ratibor G. Chumakov,
  • Aleksandra V. Koroleva,
  • Boris A. Makeev,
  • Nadezhda A. Zhuk

DOI
https://doi.org/10.3390/inorganics11070285
Journal volume & issue
Vol. 11, no. 7
p. 285

Abstract

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The effect of Zn-doping on the phase composition and optical properties of the Bi2ZnxFe1-xTa2O9.5-Δ (x = 0.3, 0.5, 0.7) was studied. XRD data showed that the samples crystallize in the structural type of pyrochlore (sp. gr.Fd-3m). For all the samples, an admixture of bismuth orthotantalate β-BiTaO4 triclinic modification up to 22.5 wt.% is observed. The content of β-BiTaO4 increases with zinc doping. The unit cell parameter of the pyrochlore phase rises from 10.4878 (x = 0.3) to 10.5154 Å (x = 0.7). The samples are characterized by a porous microstructure with indistinct grain boundaries. Zinc oxide has a sintering effect on ceramics. The charge state of the ions in Bi2ZnxFe1-xTa2O9.5-Δ was investigated by X-ray spectroscopy. NEXAFS and XPS data show that zinc doping does not change the oxidation degree of iron and bismuth ions in pyrochlore. The ions are in the charge states Bi(+3), Fe(+3), Zn(+2). In the Ta4fspectrum, an energy shift of the absorption band towards lower energies by ΔE = 0.5 eV is observed, which is typical for tantalum ions with an effective charge of (+5-δ). With the increase of x(Zn), the Bi 4f7/2 and Bi 4f5/2 bands are observed to shift to lower energies due to the distribution of some Zn(II) ions in the bismuth position.

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