Dielectric and piezoelectric properties of Bi1/2Na1/2TiO3–SrTiO3 lead–free ceramics

Duong, Trang An; Han, Hongliang; Hong, Young-Hwan; Park, Young‐Seok; Nguyen, Hoang Thien Khoi; Dinh, Hinh T.; Lee, Jae‐Shin

doi:10.1007/s10832-018-0161-y

Cited by 27 publications

(10 citation statements)

References 43 publications

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“…* value at the relatively low electric field of 3 kV/mm, which is superior to other reported BNT-based materials and comparable to other lead-free ferroelectric/relaxor composites. 16,23,24,26,29,[33][34][35] As we discussed earlier, we assume that this excellent d 33 * value at low driving field for BNT-ST-2BA ceramics originates from the coexistence of NER and ER (more precisely, it seems that nonergodicities are locally spread in the ergodic relaxor).…”

Section: Resultsmentioning

confidence: 62%

“…It has been reported that (1-x)BNT-xSrTiO 3 ceramics undergo a phase transition from a nonergodic relaxor (NER) to an ER for x 0.26 with a large strain of about 0.25% under 4 kV/mm. [29][30][31] It has been suggested that the naturally formed core-shell structure (core and shell regions are comprised of ferroelectrics and relaxor, respectively) in BNT-ST ceramics is responsible for these improved strain properties. [30][31][32] Accordingly, it is noted that intentionally or naturally induced ferroelectricities (or nonergodicities) in BNT-based incipient piezoceramics play an important role for improving electromechanical strain properties with a low operating field.…”

Section: Introductionmentioning

confidence: 99%

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Large Electric Field-Induced Strain Response Under a Low Electric Field in Lead-Free Bi1/2Na1/2TiO3-SrTiO3-BiAlO3 Ternary Piezoelectric Ceramics

Nguyen

Duong

Erkinov

et al. 2020

Journal of Elec Materi

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Bismuth-based lead-free ceramics are some of the most promising candidates for actuator applications due to their large strain response. Despite the large strains in bismuth-based piezoelectric ceramics, there still remain challenges regarding their utilization in practical applications. For instance, a relatively high operating field is required to obtain the large strain properties. In this work, lead-free Bi 1/2 Na 1/2 TiO 3-SrTiO 3-BiAlO 3 (BNT-ST-BA) ternary piezoelectric ceramics are proposed as materials that could enhance the electromechanical strain performance under low driving field. We found that the highest normalized strain d 33 * value of 707 pm/V was achieved at a relatively low electric field of 3 kV/mm from 2 mol.% BA-modified BNT-ST ceramics. We suggest that the naturally induced nonergodicities in the ergodic relaxor generate internal stress. This induced internal stress is responsible for the excellent strain properties of this material. We believe that the materials synthesized in this study are promising candidates for actuator applications.

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Section: Resultsmentioning

confidence: 62%

Section: Introductionmentioning

confidence: 99%

Large Electric Field-Induced Strain Response Under a Low Electric Field in Lead-Free Bi1/2Na1/2TiO3-SrTiO3-BiAlO3 Ternary Piezoelectric Ceramics

Nguyen

Duong

Erkinov

et al. 2020

Journal of Elec Materi

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“…Although the crystallographical identity for BNT–ST ceramics is still a controversial issue, it has been known that the solid solution BNT–ST ceramics forms a morphotropic phase boundary (MPB) consisting of a rhombohedral and a pseudocubic at 25–28 mol% of ST content. Furthermore, it was reported that a large normalized strain ( S max / E max ) of about 600 pm/V under a relatively low field (4 kV/mm) was obtained in BNT–ST ceramics of MPB regions 16–19 . This abnormally large strain in BNT‐based (or BNT–ST) ceramics is associated with the reversible electric‐field‐induced phase transition from an ergodic relaxor (ER) to a ferroelectric (FE) 20–24 .…”

Section: Introductionmentioning

confidence: 99%

“…Furthermore, it was reported that a large normalized strain (S max /E max ) of about 600 pm/V under a relatively low field (4 kV/mm) was obtained in BNT-ST ceramics of MPB regions. [16][17][18][19] This abnormally large strain in BNT-based (or BNT-ST) ceramics is associated with the reversible electric-field-induced phase transition from an ergodic relaxor (ER) to a ferroelectric (FE). [20][21][22][23][24] Recently, several studies have suggested that exploring ternary systems can result in discovering a high-performance piezoelectric in BNT-ST ceramics.…”

Section: Introductionmentioning

confidence: 99%

Clarification on phase transition behaviors by local strain engineering in Bi_1/2Na_1/2TiO₃–SrTiO₃‐based ternary ceramics

et al. 2023

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The stabilization of ergodicity plays an important role in realizing large strain in a Bi 1/2 Na 1/2 TiO 3 (BNT)-based relaxor, which is strongly related to the degree of random fields with respect to the randomly distributed different cations. To clarify the effects of different ionic radii, this study investigated and compared the microstructures, crystal structures, phase transition behaviors, and electrical properties of BNT-ST-based ternary ceramics by modifying BiMeO 3 (where Me = Al and Fe). It was observed that the stabilized relaxor states are different between BiFeO 3 -/and BiAlO 3 -modified BNT-ST ternary ceramics. As a result, it is suggested that phase transition (more precisely, the stabilization of ergodicity) can be influenced by the different internal strain in BNT-ST-based ternary ceramics.

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“…Notwithstanding the above, the BNT has been widely studied as a modified system through use of BNT-based solid solutions in order to improve its properties with another systems such as BaTiO3 (BT) (from d33=83pC/N, kp=15.9% for pure BNT system to d33=155pC/N, kp=36.7% for 0.4BNT-0.06BT) [9], SrTiO3 (ST) (piezoelectric improvement until d33* ≈ 620 pC/N for 0.72BNT-0.28ST) [10], K0.5Na0.5TiO3 (KNN) (piezoelectric improvement until d33=94 pC/N and kp≈27% for 0.94BNT-0.06KNN [11], and Bi0.5K0.5TiO3 BKT (piezoelectric and dielectric improvement until d33=115 pC/N and r=1660 for 0.82BNT-0.18BKT) [12].…”

Section: Introductionmentioning

confidence: 99%

Structural, Ferroelectric, Pyroelectric, and Dielectric Study of Bi0.5Na0.5TiO3 Ceramics synthesized with Precursors Obtained by Sol-Gel Method doped with Lanthanum

Serralta-Macías1

Calderón-Piñar

Zaldivar

et al. 2021

Preprint

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In this work, the ferroelectric, pyroelectric and dielectric properties of La-doped bismuth sodium titanate ceramics (BNLT) using amounts from 0 to 6.7 at.% La were studied. The precursor powders used to make dense BNLT ceramics were obtained by the sol-gel method using the acetic acid route. All samples were calcined at 700°C for 1hr and sintered at 1150°C for 30 min in an encapsulated crucible to avoid Na and Bi volatilization, obtaining relative densities equal or higher than 94%. The obtained X-ray diffraction patterns typical of the perovskite structure, confirm the incorporation of lanthanum into the lattice, evolving from rhombohedral phase to a mixture of rhombohedral and cubic structure for higher concentrations. Thermogravimetry (TG) and Differential Scanning Calorimetry (DSC) results indicate that the crystallization of precursors powders of BNT takes place between 500 and 700°C. Additionally, the Scanning Electron Microscopy (SEM) micrographs reveal a decrement of grain size from 4.5 to 0.5 μm with increasing La content. The ferroelectric hysteresis curves show that the best ferroelectric properties were obtained for BNT 1.3% La, where the obtained values of remnant polarization and coercive field were Pr=29 μC/cm2 and Ec=39 kV/cm respectively. Also, at this concentration, the pyroelectric response shows the higher value, 4 times the pyroelectric signal of the pure BNT.

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Dielectric and piezoelectric properties of Bi1/2Na1/2TiO3–SrTiO3 lead–free ceramics

Cited by 27 publications

References 43 publications

Large Electric Field-Induced Strain Response Under a Low Electric Field in Lead-Free Bi1/2Na1/2TiO3-SrTiO3-BiAlO3 Ternary Piezoelectric Ceramics

Large Electric Field-Induced Strain Response Under a Low Electric Field in Lead-Free Bi1/2Na1/2TiO3-SrTiO3-BiAlO3 Ternary Piezoelectric Ceramics

Clarification on phase transition behaviors by local strain engineering in Bi_1/2Na_1/2TiO₃–SrTiO₃‐based ternary ceramics

Structural, Ferroelectric, Pyroelectric, and Dielectric Study of Bi0.5Na0.5TiO3 Ceramics synthesized with Precursors Obtained by Sol-Gel Method doped with Lanthanum

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Dielectric and piezoelectric properties of Bi1/2Na1/2TiO3–SrTiO3 lead–free ceramics

Cited by 27 publications

References 43 publications

Large Electric Field-Induced Strain Response Under a Low Electric Field in Lead-Free Bi1/2Na1/2TiO3-SrTiO3-BiAlO3 Ternary Piezoelectric Ceramics

Large Electric Field-Induced Strain Response Under a Low Electric Field in Lead-Free Bi1/2Na1/2TiO3-SrTiO3-BiAlO3 Ternary Piezoelectric Ceramics

Clarification on phase transition behaviors by local strain engineering in Bi1/2Na1/2TiO3–SrTiO3‐based ternary ceramics

Structural, Ferroelectric, Pyroelectric, and Dielectric Study of Bi0.5Na0.5TiO3 Ceramics synthesized with Precursors Obtained by Sol-Gel Method doped with Lanthanum

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Clarification on phase transition behaviors by local strain engineering in Bi_1/2Na_1/2TiO₃–SrTiO₃‐based ternary ceramics