Correlation of Microstructures and Conductivities of Ferroelectric Ceramics Using Complex Impedance Spectroscopy
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概要
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The microstructures and conductivities of lead-free ceramics [Bi0.5(Na1-xKx)0.5]TiO3 with $x = 0.18$ (BNKT) and lead-based ceramics of $x$(0.94PbZn1/3Nb2/3O3 + 0.06BaTiO3) + ($1 - x$)PbZryTi1-yO3 with $x = 0.5$, $y = 0.52$ (PBZNZT) were investigated. Experimental results show that the activation energy of grain boundary conductivity is higher than that of grain conductivity for the BNKT system, indicating that the Bi2O3 evaporation of grains induces an easy conduction path through grains. However, the activation energy of grain boundary conductivity is lower than that of grain conductivity for the PBZNZT system, which might be attributed to the charged particles in the amorphous phase at grain boundaries, participating in the conduction process. A conduction model of both grain and grain boundary conductivities was proposed, and the microstructural characteristics and AC impedance data of ferroelectric ceramics correlate fairly well, suggesting that impedance spectroscopy is an efficient characterization technique for the grain boundary engineering of ferroelectric ceramics.
- 2010-06-25
著者
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Chou Chen-chia
Department Of Mechanical Engineering National Taiwan University
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Tseng Tseung-yuen
Department Of Electronics Engineering & Institute Of Electronics National Chiao-tang University
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Pin-Yi Chen
Department of Mechanical Engineering, National Taiwan University of Science and Technology, Taipei 10672, Taiwan
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Chen Pin-Yi
Department of Mechanical Engineering, National Taiwan University of Science and Technology, Taipei 10672, Taiwan
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Haydn Chen
Department of Physics, Tunghai University, Taichung 407, Taiwan
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Chen-Chia Chou
Department of Mechanical Engineering, National Taiwan University of Science and Technology, Taipei 10672, Taiwan
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