Structure and good piezoelectric performance in the complex system of Pb[(Zn,Ni)Nb]O3–Pb[(In,Yb)Nb]O3–Pb(Zr,Hf,Ti)O3

High-performance piezoelectrics are always demanded for the high-end application. Herein, a complex piezoelectric system of 0.49Pb(Zn1/2Ni1/2)1/3Nb2/3O3–xPb(In1/2Yb1/2)1/2Nb1/2O3–(0.51 − x)Pb(Zr1/2Hf1/2)0.1Ti0.9O3 (0.16 ≤ x ≤ 0.23) was fabricated through the solid-state method. The structure, ferroe...

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Veröffentlicht in:	Journal of applied physics 2020-07, Vol.128 (2)
Hauptverfasser:	Zhang, Jianbo, Liu, Hui, Sun, Shengdong, Liu, Ye, Gao, Botao, Deng, Shiqing, Fan, Longlong, Chen, Jun
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Sprache:	eng
Schlagworte:	Applied physics ceramics Complex systems Coupling coefficients crystal structure Curie temperature Dielectric properties ferroelectric materials Ferroelectricity Lattice strain MATERIALS SCIENCE Nickel Niobium phase transitions piezoelectric materials Piezoelectricity Structural stability Temperature dependence X-ray diffraction Zirconium
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creator	Zhang, Jianbo Liu, Hui Sun, Shengdong Liu, Ye Gao, Botao Deng, Shiqing Fan, Longlong Chen, Jun
description	High-performance piezoelectrics are always demanded for the high-end application. Herein, a complex piezoelectric system of 0.49Pb(Zn1/2Ni1/2)1/3Nb2/3O3–xPb(In1/2Yb1/2)1/2Nb1/2O3–(0.51 − x)Pb(Zr1/2Hf1/2)0.1Ti0.9O3 (0.16 ≤ x ≤ 0.23) was fabricated through the solid-state method. The structure, ferroelectric, piezoelectric, and dielectric properties were investigated. The optimum piezoelectric coefficient d33 of 761 pC/N, high Curie temperature of 169 °C, dielectric permittivity (ɛr) of 4557, and electromechanical coupling coefficient (kp) of 63% were found at the morphotropic phase boundary composition of x = 0.19, which are superior to other complex piezoelectric materials. In particular, a significant large-signal d 33 ∗ of 913 pm/V and low strain hysteresis (6%) was obtained in the temperature range of 20–170 °C. Temperature-dependent x-ray diffraction (XRD) has demonstrated that good temperature stability is put down to the structure stability. The agreement between the calculated lattice strain from in situ high-energy synchrotron XRD data and the macroscopic measurements suggests that the large lattice strain has a dominant contribution to the high piezoelectric response. The high piezoelectric performance and good temperature stability makes it potential for application.
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(ANL), Argonne, IL (United States). Advanced Photon Source (APS)</creatorcontrib><description>High-performance piezoelectrics are always demanded for the high-end application. Herein, a complex piezoelectric system of 0.49Pb(Zn1/2Ni1/2)1/3Nb2/3O3–xPb(In1/2Yb1/2)1/2Nb1/2O3–(0.51 − x)Pb(Zr1/2Hf1/2)0.1Ti0.9O3 (0.16 ≤ x ≤ 0.23) was fabricated through the solid-state method. The structure, ferroelectric, piezoelectric, and dielectric properties were investigated. The optimum piezoelectric coefficient d33 of 761 pC/N, high Curie temperature of 169 °C, dielectric permittivity (ɛr) of 4557, and electromechanical coupling coefficient (kp) of 63% were found at the morphotropic phase boundary composition of x = 0.19, which are superior to other complex piezoelectric materials. In particular, a significant large-signal d 33 ∗ of 913 pm/V and low strain hysteresis (6%) was obtained in the temperature range of 20–170 °C. Temperature-dependent x-ray diffraction (XRD) has demonstrated that good temperature stability is put down to the structure stability. The agreement between the calculated lattice strain from in situ high-energy synchrotron XRD data and the macroscopic measurements suggests that the large lattice strain has a dominant contribution to the high piezoelectric response. The high piezoelectric performance and good temperature stability makes it potential for application.</description><identifier>ISSN: 0021-8979</identifier><identifier>EISSN: 1089-7550</identifier><identifier>DOI: 10.1063/5.0006390</identifier><identifier>CODEN: JAPIAU</identifier><language>eng</language><publisher>Melville: American Institute of Physics</publisher><subject>Applied physics ; ceramics ; Complex systems ; Coupling coefficients ; crystal structure ; Curie temperature ; Dielectric properties ; ferroelectric materials ; Ferroelectricity ; Lattice strain ; MATERIALS SCIENCE ; Nickel ; Niobium ; phase transitions ; piezoelectric materials ; Piezoelectricity ; Structural stability ; Temperature dependence ; X-ray diffraction ; Zirconium</subject><ispartof>Journal of applied physics, 2020-07, Vol.128 (2)</ispartof><rights>Author(s)</rights><rights>2020 Author(s). 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(ANL), Argonne, IL (United States). Advanced Photon Source (APS)</creatorcontrib><title>Structure and good piezoelectric performance in the complex system of Pb[(Zn,Ni)Nb]O3–Pb[(In,Yb)Nb]O3–Pb(Zr,Hf,Ti)O3</title><title>Journal of applied physics</title><description>High-performance piezoelectrics are always demanded for the high-end application. Herein, a complex piezoelectric system of 0.49Pb(Zn1/2Ni1/2)1/3Nb2/3O3–xPb(In1/2Yb1/2)1/2Nb1/2O3–(0.51 − x)Pb(Zr1/2Hf1/2)0.1Ti0.9O3 (0.16 ≤ x ≤ 0.23) was fabricated through the solid-state method. The structure, ferroelectric, piezoelectric, and dielectric properties were investigated. The optimum piezoelectric coefficient d33 of 761 pC/N, high Curie temperature of 169 °C, dielectric permittivity (ɛr) of 4557, and electromechanical coupling coefficient (kp) of 63% were found at the morphotropic phase boundary composition of x = 0.19, which are superior to other complex piezoelectric materials. In particular, a significant large-signal d 33 ∗ of 913 pm/V and low strain hysteresis (6%) was obtained in the temperature range of 20–170 °C. Temperature-dependent x-ray diffraction (XRD) has demonstrated that good temperature stability is put down to the structure stability. The agreement between the calculated lattice strain from in situ high-energy synchrotron XRD data and the macroscopic measurements suggests that the large lattice strain has a dominant contribution to the high piezoelectric response. 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Advanced Photon Source (APS)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Structure and good piezoelectric performance in the complex system of Pb[(Zn,Ni)Nb]O3–Pb[(In,Yb)Nb]O3–Pb(Zr,Hf,Ti)O3</atitle><jtitle>Journal of applied physics</jtitle><date>2020-07-14</date><risdate>2020</risdate><volume>128</volume><issue>2</issue><issn>0021-8979</issn><eissn>1089-7550</eissn><coden>JAPIAU</coden><abstract>High-performance piezoelectrics are always demanded for the high-end application. Herein, a complex piezoelectric system of 0.49Pb(Zn1/2Ni1/2)1/3Nb2/3O3–xPb(In1/2Yb1/2)1/2Nb1/2O3–(0.51 − x)Pb(Zr1/2Hf1/2)0.1Ti0.9O3 (0.16 ≤ x ≤ 0.23) was fabricated through the solid-state method. The structure, ferroelectric, piezoelectric, and dielectric properties were investigated. 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subjects	Applied physics ceramics Complex systems Coupling coefficients crystal structure Curie temperature Dielectric properties ferroelectric materials Ferroelectricity Lattice strain MATERIALS SCIENCE Nickel Niobium phase transitions piezoelectric materials Piezoelectricity Structural stability Temperature dependence X-ray diffraction Zirconium
title	Structure and good piezoelectric performance in the complex system of Pb[(Zn,Ni)Nb]O3–Pb[(In,Yb)Nb]O3–Pb(Zr,Hf,Ti)O3
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