1. Preferences of the end members of the lanthanide series for A and B sites in BiFeO3.
- Author
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Lisnevskaya, Inna V., Myagkaya, Ksenia V., Butova, Vera V., Shapovalov, Victor V., Rusalev, Yury V., Zahran, Heba Y., Yahia, Ibrahim S., and Soldatov, Alexander V.
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RARE earth metals , *YTTERBIUM , *X-ray powder diffraction , *UNIT cell , *MAGNETIC declination , *SOLID solutions , *HYSTERESIS loop - Abstract
The preferences of the end members of the lanthanide series (Er3+, Tm3+, Yb3+ and Lu3+) for Bi and Fe sites in BiFeO 3 were investigated in this paper using X-ray powder diffraction. It was shown that: (1) the crystal structure of the BiFeO 3 -derived solid solutions remains rhombohedral in the Ln3+ concentration range from 0.01 to 0.1; (2) for the Er3+-, Tm3+- and Yb3+-doped materials, the unit cell parameters of solid solutions (Bi 1-x Ln x FeO 3 or BiFe 1-x Ln x O 3 , x = 0–0.1) decrease with increasing x regardless of the selected stoichiometry; (3) for the materials with the same x , the unit cell parameters increase across the Er3+ - Tm3+ - Yb3+ series despite the decrease in ionic radius that occurs across the lanthanide series; and (4) for the Lu3+-doped materials, the unit cell parameters show only a minor increase. These results suggest that with the decreasing ionic radius of the lanthanides, simultaneous doping on the A and B sites corresponding to the formula Bi 1-x+z Ln х-z Fe 1-z Ln z O 3 (Tm3+, Yb3+) gradually replaces dominant A-site doping (Er3+) and eventually finishes with B-site doping (Lu3+). Variations in the magnetic properties of the doped samples indirectly confirm systematic changes in the preferences of the end members of the lanthanide series for Fe sites in BiFeO 3 : the values of M s and M r decrease drastically with the decreasing size of the Ln3+ cation to the extent that the hysteresis loops for the Lu3+-containing samples have a narrow and lenticular shape, which may be due to the dilution of the Fe-sublattice by Lu3+ cations. The samples show a piezoelectric coefficient d 33 of 15 pC/N on average and up to 30 pC/N in individual specimens. Despite belonging to a class of multiferroics, Ln3+-containing solid solutions of BiFeO 3 show no magnetoelectric or magnetodielectric response due to the weak coupling between piezoelectric and magnetic subsystems. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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