Ultralow loss CaMgGeO₄ microwave dielectric ceramic and its chemical compatibility with silver electrodes for low-temperature cofired ceramic applications
Xiang, Huaicheng; Li, Chunchun; Jantunen, Heli; Fang, Liang; Hill, Arthur E. (2018-03-26)
Huaicheng Xiang, Chunchun Li, Heli Jantunen, Liang Fang, and Arthur E. Hill. ltralow Loss CaMgGeO4 Microwave Dielectric Ceramic and Its Chemical Compatibility with Silver Electrodes for Low-Temperature Cofired Ceramic Applications. ACS Sustainable Chemistry & Engineering 2018 6 (5), 6458-6466. DOI: 10.1021/acssuschemeng.8b00220
© 2018 American Chemical Society. This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Sustainable Chemistry & Engineering, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acssuschemeng.8b00220.
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https://urn.fi/URN:NBN:fi-fe2018060825585
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Abstract
A new ultralow dielectric loss cofired CaMgGeO₄ dielectric material with olivine structure was fabricated by the solid-state route. The X-ray patterns, Rietveld refinement, and microstructure revealed the characteristics of the synthesized material. CaMgGeO₄ ceramic belongs to the orthorhombic system with a Pbmn space group. Sintered at 1300 °C for 6 h, the ceramic exhibited a densification of 96.5%, an ultrahigh quality factor (Q × f) of 124 900 GHz (tan δ = 1.24 × 10–4) at a frequency of 15.5 GHz, a permittivity (εr) of 6.71, and a temperature coefficient of resonant frequency (τf) of −73.7 ppm/°C, and the average coefficient of thermal expansion of CaMgGeO₄ was 12.4 ppm/°C. The sintering temperature of the CaMgGeO₄ ceramic was reduced from 1300 to 940 °C with the addition of 5 wt % B₂O₃. The CaMgGeO₄ + 5 wt % B₂O₃ ceramics exhibited favorable microwave dielectric performances: Q × f = 102 000 GHz (at 16.4 GHz), εr = 5.80, and τf = −64.7 ppm/°C, respectively. In addition, the CaMgGeO₄ ceramic did not react with Ag electrodes, which could be advantageous in low-temperature cofired ceramic multilayer microwave devices.
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