Electrical conduction and dielectric relaxation mechanisms in the KNN-based ceramics

Multilayer ceramic actuators with a base metal internal electrode are in great demand because of their high voltage-driven displacement. Thus, the piezoelectric materials should be sintered in low oxygen partial pressure. The (Li, Ta, Sb)-doped (K,Na)NbO3 (KNN)-based ceramics are heat-treated in O2,...

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Bibliographic Details
Published in:Journal of applied physics 2019-09, Vol.126 (10)
Main Authors: Wang, Xiaozhi, Huan, Yu, Wang, Zhenxing, Lin, Xiujuan, Huang, Shifeng, Wei, Tao, Li, Longtu, Wang, Xiaohui
Format: Article
Language:English
Subjects:
Actuators
Applied physics
Base metal
Ceramics
Ceramics industry
Current carriers
Dielectric relaxation
Electrical conduction
Electrical properties
Electrodes
Heat treatment
High temperature
Industrial applications
Multilayers
Organic chemistry
Oxygen
Partial pressure
Piezoelectricity
Tantalum
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Summary:Multilayer ceramic actuators with a base metal internal electrode are in great demand because of their high voltage-driven displacement. Thus, the piezoelectric materials should be sintered in low oxygen partial pressure. The (Li, Ta, Sb)-doped (K,Na)NbO3 (KNN)-based ceramics are heat-treated in O2, air, N2, and 99 vol. % N2/1 vol. % H2 mixture gas at 300 °C in this study to identify the predominant charge carriers by defect chemistry. By analyzing electrical conduction and dielectric relaxation mechanisms, the dominant charge carriers in the ceramics are electrons and oxygen vacancies at low (500 °C), respectively. In addition, the defect concentration in the ceramics increases with the decreasing oxygen partial pressures, and the change is more evident in the presence of H2 gas. Correspondingly, the electrical properties slightly degrade with the decreasing oxygen partial pressure and severely degrade in the N2/H2 mixture gas. Therefore, the (Li, Ta, Sb)-doped KNN-based ceramics with an n-type conduction mechanism are difficult to sinter in a reducing atmosphere. In order to cofire with base metal electrodes, the p-type conduction should be designed by doping the KNN ceramic in the future for industrial application.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.5110582