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Sintering behavior, crystal structure, and microwave dielectric properties of a novel NaY <sub>9</sub> Si <sub>6</sub> O <sub>26</sub> ceramic

Yingxiang Li, Deyin Liang, Xing Zhang, Zhe Xiong, Bin Tang, Feng Si, Zixuan Fang, Zitao Shi, Jingjing Chen, Fei Wang, Hao Li

2024Journal of the American Ceramic Society12 citationsDOI

Abstract

Abstract This study investigates NaY 9 Si 6 O 26 ceramics prepared through the solid‐phase method, focusing on their microwave dielectric properties and crystallographic characteristics. X‐ray diffraction analysis reveals a hexagonal crystal structure for NaY 9 Si 6 O 26 ceramics within the P 63/ m (176) space group. Rietveld refinement analysis precisely determines the lattice constants as a = b = 9.3423 Å, c = 6.7524 Å, and a unit cell volume of V = 510.3877 Å 3 . Additionally, Raman spectroscopy unveils a noteworthy correlation between the quality factor and the full width at half maximum of the A 1g (O) mode at 878 cm −1 . The structural attributes, including lattice fringes and diffraction patterns of hexagonal NaY 9 Si 6 O 26 ceramics, are elucidated through transmission electron microscopy. Of significance are the microwave dielectric properties of NaY 9 Si 6 O 26 ceramics sintered at 1465°C, revealing a relative permittivity ( ε r ) of 10.42, an impressive Q × f product of 33 766 GHz (at f = 11.14 GHz), and a temperature coefficient of resonant frequency ( τ f ) of −28.7 ppm/°C. This comprehensive investigation contributes to the understanding of both the structural and microwave dielectric characteristics of NaY 9 Si 6 O 26 ceramics, with potential applications in advanced electronic devices.

Topics & Concepts

Rietveld refinementMaterials scienceCeramicCrystal structureDielectricRaman spectroscopySinteringTemperature coefficientLattice constantDiffractionAnalytical Chemistry (journal)MicrowaveCrystallographyChemistryOpticsComposite materialOptoelectronicsChromatographyPhysicsQuantum mechanicsMicrowave Dielectric Ceramics SynthesisFerroelectric and Piezoelectric MaterialsLuminescence Properties of Advanced Materials