Evolution of Phase Transformation on Microwave Dielectric Properties of BaSixO1+2x Ceramics and Their Temperature-Stable LTCC Materials

Wen, Ting Bin; Luo, Ying; Zeng, Zhiqiang; Liu, Xiaotian; Yin, Congling; Cai, Yiyang; Li, Xiaoxiao; Du, Kang; Lei, Wen; Wang, Shengxiang

doi:10.3390/cryst13060870

Crystals

2023

DOI: 10.3390/cryst13060870

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Evolution of Phase Transformation on Microwave Dielectric Properties of BaSixO1+2x Ceramics and Their Temperature-Stable LTCC Materials

Ting Bin Wen

Ying Luo

Zhiqiang Zeng

et al.

Abstract: BaSixO1+2x (1.61 ≤ x ≤ 1.90) and LiF-doped BaSi1.63O4.26 ceramics were prepared by using a traditional solid-state method at the optimal sintering temperatures. The evolution of phase compositions of BaSixO1+2x (1.61 ≤ x ≤ 1.9) ceramics was revealed. The coexistence of Ba5Si8O21 and Ba3Si5O13 phases was obtained in BaSixO1+2x (1.61 ≤ x ≤ 1.67) ceramics. The BaSi2O5 phase appeared inBaSixO1+2x (1.68 ≤ x ≤ 1.90) ceramics. At 1.68 ≤ x ≤ 1.69, only BaSi2O5 and Ba3Si5O13 phases existed. With the further increase in… Show more

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Design and Fabrication of a C-Band Patch Antenna with Low Loss BaM₄Si₅O₁₇ Microwave Dielectric Ceramics

Liu,

Du,

et al. 2024

ACS Appl. Mater. Interfaces

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Single-phase BaM4Si5O17 (M = Yb, Er, Y, Ho) ceramics have been investigated for their crystal structures, microwave dielectric properties, flexural strength, and potential applications in dielectric antennas. Rietveld refinement and TEM analysis revealed that the BaM4Si5O17 ceramics exhibit a monoclinic structure (space groups: P21/m). The εr of the BaM4Si5O17 ceramics was dominated by ionic polarizability and ρrel. The Q × f values were considerably larger at BaM4Si5O17 (M = Yb and Y) ceramics with the high U total and low intrinsic dielectric loss. The τf values were controlled by the MO6 octahedron distortion and – V Ba. The flexural strength was mainly dominated by pores and average grain size and reached the maximum value (156 MPa) at BaY4Si5O17 ceramic with small average gain sizes and high relative density. Additionally, a patch antenna was fabricated using high-performance BaY4Si5O17 ceramic characterized by a εr value of 9.02, a Q × f value of 60620 at 12.30 GHz, and a τf value of −37.65 ppm/°C. This design achieved a high simulated radiation efficiency of 82.70% and a gain of 5.60 dBi at 6.97 GHz. indicating potential applications of BaY4Si5O17 ceramic because of its low dielectric loss and high flexural strength.

show abstract

Design and Fabrication of a C-Band Patch Antenna with Low Loss BaM₄Si₅O₁₇ Microwave Dielectric Ceramics

Liu,

Du,

et al. 2024

ACS Appl. Mater. Interfaces

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show abstract

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Evolution of Phase Transformation on Microwave Dielectric Properties of BaSixO1+2x Ceramics and Their Temperature-Stable LTCC Materials

Cited by 1 publication

References 31 publications

Design and Fabrication of a C-Band Patch Antenna with Low Loss BaM₄Si₅O₁₇ Microwave Dielectric Ceramics

Design and Fabrication of a C-Band Patch Antenna with Low Loss BaM₄Si₅O₁₇ Microwave Dielectric Ceramics

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Evolution of Phase Transformation on Microwave Dielectric Properties of BaSixO1+2x Ceramics and Their Temperature-Stable LTCC Materials

Cited by 1 publication

References 31 publications

Design and Fabrication of a C-Band Patch Antenna with Low Loss BaM4Si5O17 Microwave Dielectric Ceramics

Design and Fabrication of a C-Band Patch Antenna with Low Loss BaM4Si5O17 Microwave Dielectric Ceramics

Contact Info

Product

Resources

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Design and Fabrication of a C-Band Patch Antenna with Low Loss BaM₄Si₅O₁₇ Microwave Dielectric Ceramics

Design and Fabrication of a C-Band Patch Antenna with Low Loss BaM₄Si₅O₁₇ Microwave Dielectric Ceramics