Indian Journal of Pure & Applied Physics | |
Composition-Dependent Dielectric and Piezoelectric Properties of Na1-zKzNbO3 Ceramics | |
article | |
Surendra Singh1  Don Biswas2  A S Bahuguna4  Prashant Thapliyal2  Vishal Rohilla2  G S Kathait2  N S Panwar2  Prolay Sharma3  | |
[1] Department of Sciences ,(Physics), Quantum University Roorkee - Dehradun Highway;Instrumentation Engineering, H.N.B. Garhwal University;Instrumentation and Electronics Engineering, Jadavpur University;Electronics and communication Engineering, H.N.B. Garhwal University | |
关键词: Ceramics; Dielectric constant; Electric conductivity; Grain size; SEM; Ferroelectrics; Article; | |
DOI : 10.56042/ijpap.v61i5.70679 | |
来源: National Institute of Science Communication and Information Resources | |
【 摘 要 】
Sodium potassium niobate, Na1-zKzNbO3, is a ceramic material that exhibits dielectric and piezoelectric properties, which can be tuned by changing the composition of the material. The dielectric properties of Na1-zKzNbO3 ceramics are characterized by a high dielectric constant and low loss, which makes them useful for applications in capacitors, filters, and resonators. Pellets of Na1-zKzNbO3 (0.120 ≤ z ≤ 0.210) were prepared by the solid-state reaction technique. The structural and morphological study was carried out on the prepared compositions at room temperature (RT). A Piezoelectric indirect constant (d33*) was obtained for the prepared compositions. Additionally, dielectric measurements were performed at frequencies 10-1000 kHz, from ambient temperature to 500°C. For the prepared compositions with z = 0.175, a break in the XRD peak shifting patterns was observed, and the average grain size was calculated at 2.044 ± 0.3 μm. Also, the maximum indirect piezoelectric constant (d33*) was observed for z = 0.175 among the prepared compositions. For the prepared compositions, compositions with z = 0.140 showed the highest dielectric constant (peak value 1486, 385°C). Among the prepared samples, dielectric constant (ε), loss tangent (tan δ) and electric conductivity (σ) were found to be minimum for the composition with z = 0.175 at all the measured frequencies. Anomalous dielectric, piezoelectric and structural properties are evident for the samples with z = 0.175 among the prepared samples. Overall, the composition-dependent dielectric and piezoelectric properties of Na1-zKzNbO3 ceramics make them promising materials for use in various electronic and sensing applications where high-performance dielectric and piezoelectric materials are required.
【 授权许可】
Unknown
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