| The development of Bi Fe O3-based ceramics |
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| 作者姓名: | Ahmad Hussain Xijun Xu Guoliang Yuan Yiping Wang Ying Yang Jiang Yin Junming Liu Zhiguo Liu |
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| 作者单位: | School of Materials Science and Engineering, Nanjing University of Science and Technology;National Laboratory of Solid State Microstructures, Department of Materials Science and Engineering, Nanjing University;Precision Driving Laboratory, Nanjing University of Aeronautics and Astronautics |
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| 基金项目: | supported by the National Basic Research Program of China(2012CB619406);the National Natural Science Foundation of China(11134004,51177072 and 11274174);the Fundamental Research Funds for the Central Universities(30920130111018) |
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| 摘 要: | The multiferroic properties of Bi Fe O3-based ceramics were improved through optimizing their sintering method and doping with certain rare earth elements in pure Bi Fe O3. Some methods, especially liquid-phase sintering method has largely decreased the densities of oxygen vacancies and Fe2in Bi Fe O3-based ceramics, and thus their resistivity became high enough to measure the saturated polarization and the large piezoelectric d33 coefficient under the high electric field of 150 k V/cm. Besides,multiferroic properties were improved through the rare earth elements’ doping in pure Bi Fe O3. Magnetization commonly increases with the proportional increase of Nd,La, Sm and Dy contents up to *30 %, while ferroelectric phase can transform to paraelectric phase at a certain proportion. An improved magnetoelectric coupling was often observed at ferroelectric phase with a relatively large proportion. Besides, an enhanced piezoelectric coefficient is expected in Bi Fe O3-based ceramics with morphotropic phase boundaries as they are already observed in thin epitaxial Bi Fe O3 films.
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| 关 键 词: | O3 Fe 陶瓷 纯铋 稀土元素掺杂 液相烧结法 压电系数 铁电相 |
The development of Bi Fe O_3-based ceramics |
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| Ahmad Hussain,Xijun Xu,Guoliang Yuan,Yiping Wang,Ying Yang,Jiang Yin,Junming Liu,Zhiguo Liu.The development of Bi Fe O3-based ceramics[J].Chinese Science Bulletin,2014(36):5161-5169. |
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| Authors: | Ahmad Hussain Xijun Xu Guoliang Yuan Yiping Wang Ying Yang Jiang Yin Junming Liu Zhiguo Liu |
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| Abstract: | The multiferroic properties of Bi Fe O3-based ceramics were improved through optimizing their sintering method and doping with certain rare earth elements in pure Bi Fe O3. Some methods, especially liquid-phase sintering method has largely decreased the densities of oxygen vacancies and Fe2in Bi Fe O3-based ceramics, and thus their resistivity became high enough to measure the saturated polarization and the large piezoelectric d33 coefficient under the high electric field of 150 k V/cm. Besides,multiferroic properties were improved through the rare earth elements' doping in pure Bi Fe O3. Magnetization commonly increases with the proportional increase of Nd,La, Sm and Dy contents up to *30 %, while ferroelectric phase can transform to paraelectric phase at a certain proportion. An improved magnetoelectric coupling was often observed at ferroelectric phase with a relatively large proportion. Besides, an enhanced piezoelectric coefficient is expected in Bi Fe O3-based ceramics with morphotropic phase boundaries as they are already observed in thin epitaxial Bi Fe O3 films. |
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| Keywords: | Multiferroic á FE–PE phase transition á Liquid-phase sintering method |
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