Journal of Asian Ceramic Societies (Jul 2020)

Investigation of structural and dielectric properties of subsolidus bismuth iron niobate pyrochlores

  • F.A. Jusoh,
  • K.B. Tan,
  • Z. Zainal,
  • S.K. Chen,
  • C.C. Khaw,
  • O.J. Lee

DOI
https://doi.org/10.1080/21870764.2020.1799914
Journal volume & issue
Vol. 8, no. 3
pp. 957 – 969

Abstract

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Subsolidus Bi3.36Fe2.08+xNb2.56−xO14.56−x (BFN) pyrochlores prepared by solid-state reaction at 950°C over 48 h showed a moderate solid solution range of −0.24 ≤ x ≤ 0.48. As to preserve the overall charge electroneutrality of the system, the doping mechanism was proposed to be a one-to-one substitution of Nb5+ by Fe3+ together with oxygen non-stoichiometry, i.e. Nb5+ ↔ Fe3+ − O2–. BFN pyrochlores crystallized in a cubic symmetry, space group Fd$$\bar{3}$$m (No. 227), Z = 4 and their refined lattice constants were found to be in the range 10.5071 (4)–10.5107 (7) Å. The microstructural analyses revealed their grain size range 0.5–8.4 μm and crystallite size range 63−78 nm, respectively. These thermally stable BFN pyrochlores exhibited moderate high dielectric constants, ε’ in the range 141–150 and dielectric losses, tan δ ~ 0.2 at ~30°C and 1 MHz.

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