Jianyin Lin scite author profile

0.70BiFeO 3 -0.30BaTiO 3 (0.70BF-0.30BT) ceramics have been widely concerned because of their potential applications for high-temperature piezoelectric devices. In this work, a series of dense 0.70BF-0.30BT ceramics with average grain size variation from 0.55 to 6.0 μm were prepared. XRD results indicate that 0.70BF-0.30BT ceramics show the coexistence of rhombohedral and pseudocubic phases and the volume fraction of the rhombohedral phase increase with the grain size. The dielectric, ferroelectric and piezoelectric properties increase with the grain size initially from 0.55 to 5.0 μm and then decrease slightly. Values of d 33 , P r , and ε r, of 0.70BF-0.30BT ceramics with the grain size of 5.0 μm are 185 pC/N, 21.2 μC/cm 2 , and 638, respectively, about five times higher than those ceramics with fine-grain of 0.55 μm. Of particular importance is that 0.70BF-0.30BT ceramics with large grain sizes possess better piezoelectric thermal stability due to the much stabler poled domain state with the rising temperature. The detailed structural studies indicate that the enhanced electric properties are owing to the significantly improved domain motion and the increased lattice distortion. This clarifying the relationship between electrical properties and grain size offers a novel way of improving the performances of piezoceramics.

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Enhanced transduction coefficient and thermal stability of 0.75BiFeO3-0.25BaTiO3 ceramics for high temperature piezoelectric energy harvesters applications

Tong

Lin

et al. 2022

Ceramics International

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Reduced dielectric loss and improved electric thermal stability of BF–PT–BT ceramics by Mn additions

Lin

Qin²,

Cui³

et al. 2023

J Mater Sci

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Enhanced Piezoelectric Properties and Reduced High Temperature Dielectric Loss of Bf - Pt-Bt Ceramics By Mn Additions

et al. 2022

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Jianyin Lin

Tailoring the chemical heterogeneity of Mn-modified 0.75BiFeO3-0.25BaTiO3 ceramics for piezoelectric sensor applications

Correlation between grain size and electrical properties of high‐temperature lead‐free 0.70BiFeO₃‐0.30BaTiO₃ ceramics

Enhanced transduction coefficient and thermal stability of 0.75BiFeO3-0.25BaTiO3 ceramics for high temperature piezoelectric energy harvesters applications

Reduced dielectric loss and improved electric thermal stability of BF–PT–BT ceramics by Mn additions

Enhanced Piezoelectric Properties and Reduced High Temperature Dielectric Loss of Bf - Pt-Bt Ceramics By Mn Additions

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Jianyin Lin

Tailoring the chemical heterogeneity of Mn-modified 0.75BiFeO3-0.25BaTiO3 ceramics for piezoelectric sensor applications

Correlation between grain size and electrical properties of high‐temperature lead‐free 0.70BiFeO3‐0.30BaTiO3 ceramics

Enhanced transduction coefficient and thermal stability of 0.75BiFeO3-0.25BaTiO3 ceramics for high temperature piezoelectric energy harvesters applications

Reduced dielectric loss and improved electric thermal stability of BF–PT–BT ceramics by Mn additions

Enhanced Piezoelectric Properties and Reduced High Temperature Dielectric Loss of Bf - Pt-Bt Ceramics By Mn Additions

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Correlation between grain size and electrical properties of high‐temperature lead‐free 0.70BiFeO₃‐0.30BaTiO₃ ceramics