Novel Method to Achieve Temperature-Stable Microwave Dielectric Ceramics: A Case in the Fergusonite-Structured NdNbO 4 System

Microwave dielectric ceramics with permittivity (ε ) ∼ 20 play an important role in massive multiple-input multiple-output (MIMO) technology in 5G. Although fergusonite-structured materials with low dielectric loss are good candidates for 5G application, tuning the temperature coefficient of resonan...

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Published in:ACS applied materials & interfaces 2023-04, Vol.15 (15), p.19129-19136
Main Authors: Zhou, Di, Zhang, Ling, Xu, Di-Ming, Qiao, Feng, Yao, Xiaogang, Lin, Huixing, Liu, Wenfeng, Pang, Li-Xia, Hussain, Fayaz, Darwish, Moustafa Adel, Zhou, Tao, Chen, Yawei, Liang, Qixin, Zhang, Meirong, Reaney, Ian M
Format: Article
Language:English
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Summary:Microwave dielectric ceramics with permittivity (ε ) ∼ 20 play an important role in massive multiple-input multiple-output (MIMO) technology in 5G. Although fergusonite-structured materials with low dielectric loss are good candidates for 5G application, tuning the temperature coefficient of resonant frequency (TCF) remains a problem. In the present work, smaller V ions ( = 0.355 Å, with coordination number (CN) = 4) were substituted for Nb ( = 0.48 Å with CN = 4) in the Nd(Nb V )O ceramics, which, according to X-ray diffraction data, lowered the fergusonite-to-scheelite phase transition ( ) to 400 °C for = 0.2. The thermal expansion coefficient (α ) of the high-temperature scheelite phase was +11 ppm/°C, whereas for the low-temperature fergusonite phase, it was + 14 < α < + 15 ppm/°C. The abrupt change in α , the associated negative temperature coefficient of permittivity (τ ), and the minimum value of ε at resulted in a near-zero TCF ∼ (+7.8 ppm/°C) for Nd(Nb V )O (ε ∼ 18.6 and Qf ∼ 70,100 GHz). A method to design near-zero TCF compositions based on modulation of τ and α at is thus demonstrated that may also be extended to other fergusonite systems.
ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.2c23180