Abstract
X-ray diffraction and Mössbauer studies of perovskite BiFe1−xCr x O3 and PbFe0.5−xCr x Sb0.5O3 solid solution ceramics, fabricated under high pressure (4–6 GPa) have been carried out. Two morphotropic phase boundaries were revealed in the BiFe1−xCr x O3 system: one between rhombohedral (R3c) and orthorhombic (Pbam) phases at x ≈ 0.5–0.6 and the other between the orthorhombic (Pbam) and monoclinic (C2/c) phases at x ≈ 0.9. It was found out that substitution of Cr3+ for Fe3+ in BiFeO3 does not lead to the appearance of a low-spin state of Fe3+ ions, as was predicted by some first-principles calculations. A composition dependence of the magnetic phase transition temperature for BiFe1−xCr x O3 is very similar to that in the solid solutions of BiFeO3 with non-magnetic ions, implying the lack of magnetic exchange between Fe3+ and Cr3+. The reason of such behavior seems to be a difference in their electronic configuration. Addition of Cr to PbFe0.5Sb0.5O3 leads to a dramatic lowering and diffusion of the dielectric permittivity maximum and its shift to lower temperatures. Thus, Cr substitution for Fe seems to destroy both ferroelectric and magnetic long-range order in perovskite multiferroics.
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Acknowledgements
This study was partially supported by the Ministry of Education and Science of the Russian Federation (research project 3.5346.2017/BP), Russian Foundation for Basic Research (grant No 16-52-00072_Bel_a), Belarusian Republican Foundation for Basic Research (grant No T16R-079) and Research Committee of the University of Macau (Research & Development Grant for Chair Professor No RDG007/FST-CHD/2012).
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Raevskaya, S.I. et al. (2018). The Effect of Cr-Doping on the Structure, Dielectric and Magnetic Properties of BiFeO3 and Pb(Fe0.5Sb0.5)O3 Multiferroics. In: Parinov, I., Chang, SH., Gupta, V. (eds) Advanced Materials . PHENMA 2017. Springer Proceedings in Physics, vol 207. Springer, Cham. https://doi.org/10.1007/978-3-319-78919-4_16
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