Phase composition, crystal structures and enhanced microwave dielectric properties of Mg2+/Zr4+ co-doped Al2Mo3O12 ceramics

In this work, the substitution of Al3+ by Zr/Mg in Al2Mo3O12 was designed to enhance the quality factor while simultaneously adjusting the thermal stability of the resonant frequency. The Al2–2x(Zr0.5Mg0.5)2xMo3O12 (AMZM) (0.1 ≤ x ≤ 0.5) ceramics were synthesized using a simple solid-state method, r...

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Bibliographic Details
Published in:Journal of alloys and compounds 2024-08, Vol.997, p.174918, Article 174918
Main Authors: Ding, Lifeng, Heng, Ben, Wang, Dawei, Zhu, Haikui, Wang, Lixi, Hou, Yi, Fu, Zhenxiao, Zhang, Qitu
Format: Article
Language:English
Subjects:
Al2–2x(Zr0.5Mg0.5)2xMo3O12(AMZM)
Compositional adjustment
Crystal structure
Dielectric properties
Low sintering temperature
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Summary:In this work, the substitution of Al3+ by Zr/Mg in Al2Mo3O12 was designed to enhance the quality factor while simultaneously adjusting the thermal stability of the resonant frequency. The Al2–2x(Zr0.5Mg0.5)2xMo3O12 (AMZM) (0.1 ≤ x ≤ 0.5) ceramics were synthesized using a simple solid-state method, resulting in all components exhibiting single-phase crystallinity and a dense structure. A phase transition temperature below room temperature was observed when x ≥ 0.4. Furthermore, the quality factor of the synthesized samples, compared to pure-phase Al2Mo3O12 (εr = 6.79, Q×f = 28471 GHz, τf = −48.77 ppm/℃), increased by nearly threefold. A detailed investigation of the crystal structure of the samples was conducted through Rietveld refinement. The composition with x = 0.3 (monoclinic phase) exhibited optimal dielectric performance after sintering at 800 ℃ for 6 h: εr = 7.84, Q×f = 86511 GHz, τf = −42.08 ppm/℃. By forming a composite ceramic with (Li1/2Sm1/2)MoO4, the negative τf value was further adjusted to near zero. •Rietveld refinement and Raman spectroscopy were used to demonstrate that the phase transition of Al2–2x(ZrMg)xMo3O12.•High Q×f values were obtained by Zr4+/Mg2+ co-doping.•The τf value was adjusted to near-zero successfully (τf = −3.12 ppm/°C).•Optimum microwave dielectric properties (εr = 8.72, Q×f = 61790 GHz and τf = −3.12 ppm/°C) were achieved.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2024.174918