Structural, spectroscopic, and dielectric characterizations of Mn-doped 0.67BiFeO3-0.33BaTiO3 multiferroic ceramics

Hang, Qiming; Zhou, Wenke; Zhu, Xinhua; Zhu, Jianxi; Liu, Zhiguo; Al-Kassab, T.

doi:10.1007/s40145-013-0068-7

Cited by 35 publications

(17 citation statements)

References 18 publications

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“…The saturation magnetization (M s ) of the sample increases first and then decreases with the increase of Co doping level, indicating the coexistence of nearest-site antiferromagnetism coupling and next-nearest site ferromagnetic coupling. Similar phenomenon have been observed in Fe doped Ba 0.5 Sr 0.5 TiO 3 [2], Fe doped BaTiO 3 [8], and Fe doped SrTiO 3 ceramics [18]. It is noted that the dopant Co ions start interacting ferromagnetically via the closely placed oxygen vacancies.…”

Section: Resultssupporting

confidence: 77%

Effect of Cobalt substitution on the structural, electrical and magnetic properties of BaTiO<inf>3</inf> ceramics

Rani

Kolte

Gopalan

2015

2015 Joint IEEE International Symposium on the Applications of Ferroelectric (ISAF), International Symposium on Integrated Func

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Cobalt doped BaTiO 3 (BaTi 1-x Co x O 3 ) with x = 0, 5, 7.5, 10% have been synthesized by solid state reaction method and their structural, electrical and magnetic properties have been investigated. Structural characterization show that a multiphase ceramic containing both tetragonal and hexagonal structures are obtained for Co compositions from x = 5% to x = 10%. Ferroelectric and ferromagnetic properties have been observed in all the Co-doped BaTiO 3 ceramics at room temperature. The ferromagnetic hysteresis loop at room temperature is due to the formation of oxygen vacancies and their associated exchange interaction. The saturation magnetization (M s ) was 0.010 emu/g for x = 5%. Further, at x = 7.5%, it decreases and again start increasing upto ~ 0.013 emu/g for x = 10% with Cobalt concentration. However, ferroelectric hysteresis loop (P-E) is deteriorated (lossy type) with the increase of Co concentration above x = 5%. The dielectric characterization with frequency has also been carried out for all samples. The dielectric constant decreases with increasing Cobalt concentration.

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Section: Resultssupporting

confidence: 77%

Effect of Cobalt substitution on the structural, electrical and magnetic properties of BaTiO<inf>3</inf> ceramics

Rani

Kolte

Gopalan

2015

2015 Joint IEEE International Symposium on the Applications of Ferroelectric (ISAF), International Symposium on Integrated Func

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“…The observed Raman modes near 265 and 498 cm -1 can be assigned to the E-4 and A 1 -4 modes of the ceramics, respectively. These modes are in good agreement with those of BiFeO 3 -BaTiO 3 solid solution[29,30]. The Raman peaks near 641 cm -1 should be due to the symmetrical stretching vibrations for the oxygen ions of the FeO6 and MnO 6 octahedral in the BFO-BT-Eu-x ceramics.…”

supporting

confidence: 80%

Improved ferroelectricity and ferromagnetism of Eu-modified BiFeO3–BaTiO3 lead-free multiferroic ceramics

Tian

Zhou

Zou

et al. 2015

J Mater Sci: Mater Electron

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Multiferroic ceramics of 0.75Bi 1-x Eu x FeO 3 -0.25BaTiO 3 ? 1 mol% MnO 2 were synthesized by a conventional solid state reaction method and the effects of Eu doping on microstructure, ferroelectric, ferromagnetic and piezoelectric properties of the ceramics were investigated. All the ceramics exhibit a pure perovskite structure without any secondary phases. After the addition of Eu 3? ions, the crystal structure of the ceramics is transformed from rhombohedral to tetragonal phase at x = 0.025. The ferroelectricity and ferromagnetism of the ceramics are improved. For the ceramic with x = 0.025, the optimum remanent polarization of 18.3 lC/cm 2 and good piezoelectricity of 82 pC/N are obtained. The saturated magnetization M s and remanent magnetism M r of the ceramics are improved by 165 and 141 % with x increasing from 0 to 0.175, respectively.

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“…The observed shift of Raman modes toward lower frequencies is associated with the vibrations in sublattice A and is possibly caused by the increase in the mass of the cations of sublattice A. In the harmonic oscillator approximation, the mass and the frequency are connected according to the following dependence 31 :…”

Section: Resultsmentioning

confidence: 99%

“…The observed shift of Raman modes toward lower frequencies is associated with the vibrations in sublattice A and is possibly caused by the increase in the mass of the cations of sublattice A . In the harmonic oscillator approximation, the mass and the frequency are connected according to the following dependence:

f = \sqrt{\frac{k}{m}}

where f is frequency of the mode, k is the force constant, and m is the atomic mass of the doped element. Since the atomic mass of Pr is higher than the parent elements ( m Pr = 140.91, m Ba = 137.33, m Ca = 40.08), it is reasonable to expect the negative shift in modes.…”

Section: Resultsmentioning

confidence: 99%

Enhanced Piezoelectric Properties of Praseodymium‐Modified Lead‐Free (Ba_0.85Ca_0.15)(Ti_0.90Zr_0.10)O₃ Ceramics

et al. 2015

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The role of Pr 6 O 11 addition on the structure, microstructure, electrical, and electromechanical properties of lead-free /N]. Results are correlated with the crystal structure and microstructure that significantly influence the ferroelectric and piezoelectric properties near the R-T phase transition point. This material seems to be especially suitable for energy harvesting applications, exhibiting outstanding figure of merit.

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Structural, spectroscopic, and dielectric characterizations of Mn-doped 0.67BiFeO3-0.33BaTiO3 multiferroic ceramics

Cited by 35 publications

References 18 publications

Effect of Cobalt substitution on the structural, electrical and magnetic properties of BaTiO<inf>3</inf> ceramics

Effect of Cobalt substitution on the structural, electrical and magnetic properties of BaTiO<inf>3</inf> ceramics

Improved ferroelectricity and ferromagnetism of Eu-modified BiFeO3–BaTiO3 lead-free multiferroic ceramics

Enhanced Piezoelectric Properties of Praseodymium‐Modified Lead‐Free (Ba_0.85Ca_0.15)(Ti_0.90Zr_0.10)O₃ Ceramics

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Structural, spectroscopic, and dielectric characterizations of Mn-doped 0.67BiFeO3-0.33BaTiO3 multiferroic ceramics

Cited by 35 publications

References 18 publications

Effect of Cobalt substitution on the structural, electrical and magnetic properties of BaTiO<inf>3</inf> ceramics

Effect of Cobalt substitution on the structural, electrical and magnetic properties of BaTiO<inf>3</inf> ceramics

Improved ferroelectricity and ferromagnetism of Eu-modified BiFeO3–BaTiO3 lead-free multiferroic ceramics

Enhanced Piezoelectric Properties of Praseodymium‐Modified Lead‐Free (Ba0.85Ca0.15)(Ti0.90Zr0.10)O3 Ceramics

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Enhanced Piezoelectric Properties of Praseodymium‐Modified Lead‐Free (Ba_0.85Ca_0.15)(Ti_0.90Zr_0.10)O₃ Ceramics