Effect of Potassium Content on the Dielectric and Electrical Properties of Sodium Potassium Niobate Ceramics

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abstract

(KxNa1-x)NbO3 ceramics or KNN is considered as one of the most promising candidates for lead-free piezoelectric applications, because of its high Curie temperature and good electrical properties. However, it is well known that dense and well-sintered KNN ceramics are very difficult to obtain by conventional sintering process because of the high volatility of alkali elements at high temperatures. The major strategy to overcome this problem is simply adding excess alkali metals in the starting composition. KNN ceramics with potassium excess were prepared by high temperature solid state reaction technique. Effect of K excess on the phase structure and electrical properties of KNN ceramics were investigated. The results showed that the single phase orthorhombic perovskite structure was obtained in ceramics. Ferroelectric-paraelectric phase transition temperature was about 370 degrees C for all the samples. The dielectric permittivity was maximized, the dielectric loss was a minimum and the relative density was found to reach 95% of theoretical density for K content= 53% in KNN system. Impedance study shows the non-Debye type temperature of relaxation phenomenon in the system. Above the ferroelectric paraelectric phase transition temperature, the electrical conduction is governed by the thermal excitation of carriers from oxygen vacancies exhibiting NTCR behavior.

keywords

PIEZOELECTRIC CERAMICS

subject category

Materials Science; Physics

authors

Sharma, DK; Kholkin, AL; Kumari, S; Sharma, S

our authors

foto Andrei Kholkin

Andrei Kholkin

Research Coordinator
foto Dhananjay K. Sharma

Dhananjay K. Sharma

Post-Doc Fellowship

Groups

2 - Multifunctional Ferroic Ceramics and Nanostructures
3 - Carbon Materials, Composites and Functional Coatings

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Publication Details

type
Journal Article
year
2015
journal
2015 JOINT IEEE INTERNATIONAL SYMPOSIUM ON THE APPLICATIONS OF FERROELECTRIC, INTERNATIONAL SYMPOSIUM ON INTEGRATED FUNCTIONALITIES AND PIEZOELECTRIC FORCE MICROSCOPY WORKSHOP (ISAF/ISIF/PFM)
publisher
IEEE
isbn
978-1-4799-9974-3
web of science article identifier
WOS:000371897300040

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