Enhanced Thermal Stability in Dielectric Properties of NaNbO3-Modified BaTiO3-BiMg1/2Ti1/2O3 Ceramics for X9R-MLCC Applications

0.5BaTiO(3)-(0.5 - x)BiMg1/2Ti1/2O3-xNaNbO(3) (x = 0.10-0.30) ceramics were processed via a conventional solid state sintering route. X-ray diffraction analysis and Raman spectroscopy showed the formation of a cubic perovskite structure. Microstructural analysis of the samples revealed densely packed grains. The addition of NaNbO3 resulted in the enhancement in dielectric properties as a function of temperature. Relative permittivity decreased from 850 to 564 (at room temperature) with an increase in x; however, the stability in dielectric properties was improved with an increase in NaNbO3 concentration. At x = 0.25, relative permittivity (epsilon(r)) was ~630 +/- 15% in a temperature range of -70-220 degrees C with low dielectric loss (tan delta) < 0.025 (-57 to 350 degrees C) and high recoverable energy density ~0.55 J/cm(3) which meet the criterion for X9R MLCC applications.

Automated summary

In this study, 0.5BaTiO(3)-(0.5 - x)BiMg1/2Ti1/2O3-xNaNbO(3) ceramics were prepared via conventional solid state sintering route, and it was found that the addition of NaNbO3 improved the dielectric properties. At x = 0.25, the ceramics exhibited high relative permittivity and recoverable energy density, making them suitable for X9R MLCC applications.