Journal of Materials Research and Technology (Sep 2019)

Mott insulator behavior in the yttrium-based antimoniate oxide Ba2YSbO6

  • J.A. Grisales Cerón,
  • J. Arbey Rodríguez,
  • A. Rosales-Rivera,
  • N.A. Salazar H.,
  • J.A. Cuervo Farfán,
  • J.A. Cardona Vasquez,
  • D.A. Landínez Téllez,
  • J. Roa-Rojas

Journal volume & issue
Vol. 8, no. 5
pp. 3978 – 3987

Abstract

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A careful experimental and theoretical study of the double perovskite type material Ba2YSbO6 is reported. The results show that this yttrium-based antimoniate oxide crystallizes in a cubic structure, Fm3¯m (#225) space group, with evidence of the cationic ordering that characterizes a rocksalt superstructure, and tolerance factor slightly less than the unit (τ = 0.9791) due to the size differences between the Y-O6 and Sb-O6 octahedrons. The magnetic response shows weak ferromagnetic effects for the temperature values studied (50, 200 and 300 K), with evidence of an antiferromagnetic reentrance at T = 118 K under the application of low magnetic fields, which is attributed to the presence of polar ordering, accompanied by octahedral distortions caused by the movement of the cations Y3+ and Sb5+, whose effects are no longer observed in the presence of a fairly high external magnetic field (of the Tesla order). The results of the optical characterization by diffuse reflectance suggest the occurrence of a band gap Eg = 4.61 eV, which is characteristic of an insulating material. The electronic structure calculations corroborate the insulating nature of the Ba2YSBO6 complex perovskite. The results allow classifying this material as a Mott insulator, in which the occurrence of intra-site spin-exchange facilitates unpaired spins to the 4d-t2g Yttrium states, mediated by the 2p Oxygen orbitals and 5p Antimony orbitals, resulting in the ferromagnetic character of the insulating material. Keywords: Antimoniate yttrium-based perovskite, Structural characterization, Magnetic response, Optical band gap, Electronic structure