期刊
MATERIALS RESEARCH BULLETIN
卷 164, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.materresbull.2023.112277
关键词
Aurivillius oxides; Oxygen vacancy; Dielectric relaxation; Conductivity
The dielectric relaxation behavior and conductivity of Sr1-x(LiCe)(x/2.5)Bi2Nb2O9 ceramics prepared by conventional solid-sate reaction method were investigated. The introduction of (LiCe) significantly improved the conductivity, and a large conductivity at high temperature (approximately 10-4 S·cm(-1) at 530 degrees C) could be achieved. A phase transition from normal ferroelectric to relaxor-like ferroelectric was observed in the Sr1-x(LiCe)(x/2.5)Bi2Nb2O9 ceramics. Complex impedance analysis results indicated that the concentration of charge carriers gradually increased with the increase in (LiCe). Activation energy calculations confirmed that oxygen vacancies were responsible for the conductivity at high temperature. The dielectric relaxation behavior at high temperature was attributed to the short-range conductivity of oxygen vacancies under thermal stimulation.
Dielectric relaxation behavior and conductiviy of Sr1-x(LiCe)(x/2.5)Bi2Nb2O9 ceramics prepared by conventional solid-sate reaction method were investigated. With the introduction of the (LiCe), the conductivity was improved significantly and the large conductivity at high temperature (similar to 10-4 S center dot cm(-1) at 530 degrees C) could be obtained. Phase transition from normal ferroelectric to relaxor-like ferroelectric was detected in the Sr1-x(LiCe)(x/2.5)Bi2Nb2O9 ceramics. Results of the complex impedance analysis indicated that the concentration of charge carriers increased gradually with the increase in (LiCe). Oxygen vacancy was confirmed to be responsible for the conductivity at high temperature by calculating activation energy of the carriers in the corresponding range of high temperature. Dielectric relaxation behavior at high temperature was attributed to the short-range conductivity of oxygen vacancies under thermal stimulation.
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