Variation of Piezoelectric properties and mechanisms across the relaxor-like/Ferroelectric continuum in BiFeO&lt;sub&gt;3&lt;/sub&gt;– (K0.5Bi0.5)TiO3–PbTiO3 ceramics

Bennett, James T.; Shrout, Thomas R.; Zhang, Shujun; Owston, Heather E.; Stevenson, T.; Esat, Faye; Bell, Andrew J.; Comyn, T.P.

doi:10.1109/tuffc.2014.006677

Cited by 5 publications

(3 citation statements)

References 41 publications

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“…Values of low-field d 33 are smaller than those measured by other workers [45,46]. The poling conditions used in this study may need optimization.…”

Section: Resultsmentioning

confidence: 56%

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The Effect of Niobium Doping on the Electrical Properties of 0.4(Bi0.5K0.5)TiO3-0.6BiFeO3 Lead-Free Piezoelectric Ceramics

et al. 2015

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Ceramics in the system (Bi0.5K0.5)TiO3-BiFeO3 have good electromechanical properties and temperature stability. However, the high conductivity inherent in BiFeO3-based ceramics complicates measurement of the ferroelectric properties. In the present work, doping with niobium (Nb) is carried out to reduce the conductivity of (Bi0.5K0.5)TiO3-BiFeO3. Powders of composition 0.4(K0.5Bi0.5)Ti1−xNbxO3-0.6BiFe1−xNbxO3 (x = 0, 0.01 and 0.03) are prepared by the mixed oxide method and sintered at 1050 °C for 1 h. The effect of Nb doping on the structure is examined by X-ray diffraction. The microstructure is examined by scanning electron microscopy. The variation in relative permittivity with temperature is measured using an impedance analyzer. Ferroelectric properties are measured at room temperature using a Sawyer Tower circuit. Piezoelectric properties are measured using a d33 meter and a contact type displacement sensor. All the samples have high density, a rhombohedral unit cell and equiaxed, micron-sized grains. All the samples show relaxor-like behavior. Nb doping causes a reduction in conductivity by one to two orders of magnitude at 200 °C. The samples have narrow P-E loops reminiscent of a linear dielectric. The samples all possess bipolar butterfly S-E loops characteristic of a classic ferroelectric material. Nb doping causes a decrease in d33 and Smax/Emax.

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“…Values of low-field d 33 are smaller than those measured by other workers [45,46]. The poling conditions used in this study may need optimization.…”

Section: Resultsmentioning

confidence: 56%

“…The small reduction in the rhombohedral distortion of the unit cell may also have an effect (Table 1). Nb incorporation may also cause the material to become more relaxor-like, which would also explain the reduced hysteresis and negative strain in the unipolar and bipolar strain-electric field loops (Figure 8) [42,45]. …”

Section: Resultsmentioning

confidence: 99%

The Effect of Niobium Doping on the Electrical Properties of 0.4(Bi0.5K0.5)TiO3-0.6BiFeO3 Lead-Free Piezoelectric Ceramics

et al. 2015

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“…PNRs responds to the external field much faster than macroscopic domains due to the absence of domain wall motion which results in slim P-E loops and negligible hysteresis in S-E curves [27]. The reduction in S neg with the decrease of non-180°domains and the increase in relaxor character with emergence of PNRs has been enormously reported [23,25,26,28,29]. The difference in the domain dynamics of KLN2 and KLN3 is expected to create a difference in the scaling behavior which is discussed later in this part.…”

Section: Resultsmentioning

confidence: 99%

Dissolution of four-stage to three-stage dynamic scaling behavior with stabilization of relaxor character in K_0.5Bi_0.5TiO₃ based binary system

Pappachan¹,

Rashid²,

Venkatesan³

2022

Phys. Scr.

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Here, we report the dynamic scaling of a ferroelectric material at the transition compositions, from normal ferroelectric to relaxor ferroelectric (relaxor), with K0.5B0.5TiO3 (KBT) as base material and LiNbO3 (LN) as the substituent. Ferroelectric (Polarization Vs Electric field), piezoelectric (Strain Vs. Electric field) and temperature dependent dielectric data reveals that 0.98KBT-0.02LN (KLN2) has more of normal ferroelectric character while relaxor character is dominating in 0.97KBT-0.03LN (KLN3). The dynamic scaling study with constant frequency and varying electric field shows the evolution of a four-stage behavior for KLN2, distinct from previous reports with two-stage and three-stage behavior, while KLN3 shows 3-stage dynamic behavior. The evolution of a four-stage dynamic behavior is attributed to the clamping of domain walls at lower electric fields. The dissolution of the first and second stages into a single stage with the increase of LN content from 2% to 3% is attributed to the extinction of the clamping effect due to the emergence of polar nanodomains. To generalize the dissolution of stages with the increase of relaxor character, further studies are required.

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Phase structure and electrical properties of BiFeO3–BaTiO3 ceramics near the morphotropic phase boundary

Tang

Zhou

Habib

et al. 2023

Ceramics International

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Variation of Piezoelectric properties and mechanisms across the relaxor-like/Ferroelectric continuum in BiFeO<sub>3</sub>– (K0.5Bi0.5)TiO3–PbTiO3 ceramics

Cited by 5 publications

References 41 publications

The Effect of Niobium Doping on the Electrical Properties of 0.4(Bi0.5K0.5)TiO3-0.6BiFeO3 Lead-Free Piezoelectric Ceramics

The Effect of Niobium Doping on the Electrical Properties of 0.4(Bi0.5K0.5)TiO3-0.6BiFeO3 Lead-Free Piezoelectric Ceramics

Dissolution of four-stage to three-stage dynamic scaling behavior with stabilization of relaxor character in K_0.5Bi_0.5TiO₃ based binary system

Phase structure and electrical properties of BiFeO3–BaTiO3 ceramics near the morphotropic phase boundary

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Variation of Piezoelectric properties and mechanisms across the relaxor-like/Ferroelectric continuum in BiFeO<sub>3</sub>– (K0.5Bi0.5)TiO3–PbTiO3 ceramics

Cited by 5 publications

References 41 publications

The Effect of Niobium Doping on the Electrical Properties of 0.4(Bi0.5K0.5)TiO3-0.6BiFeO3 Lead-Free Piezoelectric Ceramics

The Effect of Niobium Doping on the Electrical Properties of 0.4(Bi0.5K0.5)TiO3-0.6BiFeO3 Lead-Free Piezoelectric Ceramics

Dissolution of four-stage to three-stage dynamic scaling behavior with stabilization of relaxor character in K0.5Bi0.5TiO3 based binary system

Phase structure and electrical properties of BiFeO3–BaTiO3 ceramics near the morphotropic phase boundary

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Dissolution of four-stage to three-stage dynamic scaling behavior with stabilization of relaxor character in K_0.5Bi_0.5TiO₃ based binary system