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Journal Abstract Search

143 related items for PubMed ID: 25677202

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  • 4. Ultralow-Permittivity and Temperature-Stable Ba1-xCaxMg2Al6Si9O30 Dielectric Ceramics for C-Band Patch Antenna Applications.
    Du K, Zhou M, Li C, Yin C, Cai Y, Cheng M, Zhu W, Wei G, Wang S, Lei W.
    ACS Appl Mater Interfaces; 2024 Apr 24. PubMed ID: 38655785
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  • 5. Structure, phase evolution, and microwave dielectric properties of (Ag0.5Bi0.5)(Mo0.5W0.5)O4 ceramic with ultralow sintering temperature.
    Zhou D, Li WB, Guo J, Pang LX, Qi ZM, Shao T, Xie HD, Yue ZX, Yao X.
    Inorg Chem; 2014 Jun 02; 53(11):5712-6. PubMed ID: 24848200
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  • 6. Phase Evolution, Crystal Structure, and Microwave Dielectric Properties of Water-Insoluble (1 - x)LaNbO4-xLaVO4 (0 ≤ x ≤ 0.9) Ceramics.
    Guo D, Zhou D, Li WB, Pang LX, Dai YZ, Qi ZM.
    Inorg Chem; 2017 Aug 07; 56(15):9321-9329. PubMed ID: 28745894
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  • 9. Solid-State-Activated Sintering of ZnAl2O4 Ceramics Containing Cu3Nb2O8 with Superior Dielectric and Thermal Properties.
    Shigeno K, Yano T, Fujimori H.
    Materials (Basel); 2022 Feb 26; 15(5):. PubMed ID: 35269001
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  • 10. Multilayer Functional Tapes Cofired at 450 °C: Beyond HTCC and LTCC Technologies.
    Varghese J, Siponkoski T, Sobocinski M, Vahera T, Jantunen H.
    ACS Appl Mater Interfaces; 2018 Apr 04; 10(13):11048-11055. PubMed ID: 29513520
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  • 12. Crystal Structure and Ferroelectric Evidence of BaZnSi3 O8 , a Low-Permittivity Microwave Dielectric Ceramic.
    Zou ZY, Song XQ, Jiang L, Yuan CL, Lu WZ, Hu YM, Lei W.
    Chemistry; 2021 Apr 01; 27(19):5992-5998. PubMed ID: 33462895
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  • 13. Microwave sintering studies on low loss (Zn, Mg)TiO3 dielectric resonator materials.
    Sirugudu RK, Vemuri RK, Murty BS.
    J Microw Power Electromagn Energy; 2013 Apr 01; 47(4):262-9. PubMed ID: 24779228
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  • 14. Design of a High-Efficiency and -Gain Antenna Using Novel Low-Loss, Temperature-Stable Li2Ti1-x(Cu1/3Nb2/3)xO3 Microwave Dielectric Ceramics.
    Guo HH, Fu MS, Zhou D, Du C, Wang PJ, Pang LX, Liu WF, Sombra ASB, Su JZ.
    ACS Appl Mater Interfaces; 2021 Jan 13; 13(1):912-923. PubMed ID: 33356114
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  • 15. Effect of Microwave Sintering on the Properties of 0.95(Ca0.88Sr0.12)TiO₃⁻0.05(Bi0.5Na0.5)TiO₃ Ceramics.
    Tian L, Nan J, Wang H, Shen C.
    Materials (Basel); 2019 Mar 08; 12(5):. PubMed ID: 30857173
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  • 16. (Ni1/3Nb2/3)4+-Improved High-K Ba3Ti4Nb4O21 Microwave Dielectric Ceramics for Miniaturized All-Ceramic Radomes with 5G Beam-Splitting Function.
    Tang T, Ye F, Hua H, Li C, Shen J.
    Inorg Chem; 2024 Mar 04; 63(9):4404-4411. PubMed ID: 38379507
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  • 17. Structural Evolution and Microwave Dielectric Properties of xZn0.5Ti0.5NbO4-(1- x)Zn0.15Nb0.3Ti0.55O2 Ceramics.
    Yang H, Zhang S, Yang H, Zhang X, Li E.
    Inorg Chem; 2018 Jul 16; 57(14):8264-8275. PubMed ID: 29957929
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  • 18. Doping effects of CuO additives on the properties of low-temperature-sintered PMnN-PZT-based piezoelectric ceramics and their applications on surface acoustic wave devices.
    Tsai CC, Chu SY, Lu CH.
    IEEE Trans Ultrason Ferroelectr Freq Control; 2009 Mar 16; 56(3):660-8. PubMed ID: 19411224
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  • 20. Crystal structure and microwave dielectric behaviors of ultra-low-temperature fired x(Ag(0.5)Bi(0.5))MoO₄-(1 - x)BiVO₄ (0.0 ≤ x ≤ 1.0) solid solution with scheelite structure.
    Zhou D, Pang LX, Qi ZM.
    Inorg Chem; 2014 Sep 02; 53(17):9222-7. PubMed ID: 25105210
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