Perovskite lithium and bismuth modified potassium-sodium niobium lead-free ceramics for high temperature applications

Hongliang Du; Wancheng Zhou; Fa Luo; Dongmei Zhu; Shaobo Qu; Zhibin Pei

doi:10.1063/1.2800793

Perovskite lithium and bismuth modified potassium-sodium niobium lead-free ceramics for high temperature applications

Hongliang Du, Wancheng Zhou, Fa Luo, Dongmei Zhu, Shaobo Qu, Zhibin Pei

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

57 Scopus citations

Abstract

[(K (1-x) 2 Na (1-x) 2 Lix) 1-3y Biy] Nb O3 (abbreviated as KNLBN) ceramics were prepared by conventional solid-state sintering. The addition of Li+ and Bi3+ makes the orthorhombic-tetragonal phase transition temperature (TO-T) decrease from 200 °C for pure (K0.5 Na0.5) Nb O3 ceramics to -10 °C for KNLBN ceramics (x=0.06, y=0.005), while maintaining high Curie temperature (TC =455 °C) and piezoelectric properties (d33 =185 pCN, kp =0.43, kt =0.45, ε33T ε0 =1020, and tan δ=0.023) at room temperature. In addition, good temperature stability of electrical properties is obtained in KNLBN ceramics (x=0.06, y=0.005) owing to the decrease of TO-T. These results indicate that KNLBN (x=0.06, y=0.005) ceramic is a promising lead-free piezoelectric candidate material for high temperature applications.

Original language	English
Article number	182909
Journal	Applied Physics Letters
Volume	91
Issue number	18
DOIs	https://doi.org/10.1063/1.2800793
State	Published - 2007

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@article{74496564797347f08d0eefdcf0dee9e0,

title = "Perovskite lithium and bismuth modified potassium-sodium niobium lead-free ceramics for high temperature applications",

abstract = "[(K (1-x) 2 Na (1-x) 2 Lix) 1-3y Biy] Nb O3 (abbreviated as KNLBN) ceramics were prepared by conventional solid-state sintering. The addition of Li+ and Bi3+ makes the orthorhombic-tetragonal phase transition temperature (TO-T) decrease from 200 °C for pure (K0.5 Na0.5) Nb O3 ceramics to -10 °C for KNLBN ceramics (x=0.06, y=0.005), while maintaining high Curie temperature (TC =455 °C) and piezoelectric properties (d33 =185 pCN, kp =0.43, kt =0.45, ε33T ε0 =1020, and tan δ=0.023) at room temperature. In addition, good temperature stability of electrical properties is obtained in KNLBN ceramics (x=0.06, y=0.005) owing to the decrease of TO-T. These results indicate that KNLBN (x=0.06, y=0.005) ceramic is a promising lead-free piezoelectric candidate material for high temperature applications.",

author = "Hongliang Du and Wancheng Zhou and Fa Luo and Dongmei Zhu and Shaobo Qu and Zhibin Pei",

year = "2007",

doi = "10.1063/1.2800793",

language = "英语",

volume = "91",

journal = "Applied Physics Letters",

issn = "0003-6951",

publisher = "American Institute of Physics",

number = "18",

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TY - JOUR

T1 - Perovskite lithium and bismuth modified potassium-sodium niobium lead-free ceramics for high temperature applications

AU - Du, Hongliang

AU - Zhou, Wancheng

AU - Luo, Fa

AU - Zhu, Dongmei

AU - Qu, Shaobo

AU - Pei, Zhibin

PY - 2007

Y1 - 2007

N2 - [(K (1-x) 2 Na (1-x) 2 Lix) 1-3y Biy] Nb O3 (abbreviated as KNLBN) ceramics were prepared by conventional solid-state sintering. The addition of Li+ and Bi3+ makes the orthorhombic-tetragonal phase transition temperature (TO-T) decrease from 200 °C for pure (K0.5 Na0.5) Nb O3 ceramics to -10 °C for KNLBN ceramics (x=0.06, y=0.005), while maintaining high Curie temperature (TC =455 °C) and piezoelectric properties (d33 =185 pCN, kp =0.43, kt =0.45, ε33T ε0 =1020, and tan δ=0.023) at room temperature. In addition, good temperature stability of electrical properties is obtained in KNLBN ceramics (x=0.06, y=0.005) owing to the decrease of TO-T. These results indicate that KNLBN (x=0.06, y=0.005) ceramic is a promising lead-free piezoelectric candidate material for high temperature applications.

AB - [(K (1-x) 2 Na (1-x) 2 Lix) 1-3y Biy] Nb O3 (abbreviated as KNLBN) ceramics were prepared by conventional solid-state sintering. The addition of Li+ and Bi3+ makes the orthorhombic-tetragonal phase transition temperature (TO-T) decrease from 200 °C for pure (K0.5 Na0.5) Nb O3 ceramics to -10 °C for KNLBN ceramics (x=0.06, y=0.005), while maintaining high Curie temperature (TC =455 °C) and piezoelectric properties (d33 =185 pCN, kp =0.43, kt =0.45, ε33T ε0 =1020, and tan δ=0.023) at room temperature. In addition, good temperature stability of electrical properties is obtained in KNLBN ceramics (x=0.06, y=0.005) owing to the decrease of TO-T. These results indicate that KNLBN (x=0.06, y=0.005) ceramic is a promising lead-free piezoelectric candidate material for high temperature applications.

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U2 - 10.1063/1.2800793

DO - 10.1063/1.2800793

M3 - 文章

AN - SCOPUS:35648979452

SN - 0003-6951

VL - 91

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 18

M1 - 182909

ER -

Perovskite lithium and bismuth modified potassium-sodium niobium lead-free ceramics for high temperature applications

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