Evolution of microstructure and dielectric properties of (LiCe)-doped Na0.5Bi2.5Nb2O9 Aurivillius type ceramics |
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Authors: | Zhihang Peng Qiang Chen Dan Liu Yadan Wang Dinquan Xiao Jianguo Zhu |
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Affiliation: | College of Materials Science and Engineering, Sichuan University, 610064 Chengdu, China |
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Abstract: | Aurivillius type (NaBi)0.5?x(LiCe)xBi2Nb2O9 ceramics were prepared by the standard ceramics route. The single crystal structural ceramics were achieved for all compositions and lattice distortion was decreased by (LiCe) dopants. The temperature dependent dielectric properties revealed that all compositions possess a high Curie-temperature (>780 °C). A modified Curie–Weiss relationship is used to study the diffuseness behavior of a ferroelectric phase transition indicating the degree of diffuseness of NBN-based ceramics increased with (LiCe) modifications. The degradation of resistance implied a plausible model that Ce4+ ions entered into the B-site of the pseudo-perovskite structure and acted as acceptor doping. Further investigation demonstrated that both electrical conduction and dielectric relaxation processes were associated with the oxygen vacancies produced by the substitution of Nb5+ ions by the Ce4+ ions. |
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Keywords: | Aurivillius-type ceramics Dielectric relaxation Electrical properties Impedance Oxygen vacancies |
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