Study of the dielectric properties of Y3TaO7 electroceramic.

In this work, the Y 3 TaO 7 weberite-type structure was synthesized by solid state reaction at 1773 K for 6 h, and its crystalline phase was characterized using X-ray diffraction (XRD). Morphological analysis was performed using scanning electron microscopy (SEM). Electrical characterization of the electroceramics was investigated with temperature variation employing complex impedance spectroscopy (CIS). The Nyquist diagram was fitted employing one resistor (R) – constant phase element (CPE) associations correlating to grain boundary. Activation energy (E a) values for the relaxation processes were determined as 1.07, 1.06 and 1.15 eV for imaginary impedance (Z″), imaginary electrical modulus (M") and conductivity (σ′), respectively, indicating a consistent thermo-activated conduction process. The temperature coefficient of the resonant frequency (τ f) was found to be 31.24 ppm.K−1, suggesting for the development of new dielectric materials with τ f ∼ 0. The performance of the dielectric resonator antenna (DRA) was assessed through numerical simulation, demonstrating a strong correlation in impedance and operating frequency at 5.01 GHz. This study aims to facilitate the design of Y 3 TaO 7 -based materials, offering significant potential for applications in microelectronic devices in the radiofrequency (RF) and microwave (MW) range. [ABSTRACT FROM AUTHOR]