Ultra-low firing high-k scheelite structures based on [(Li 0.5Bi0.5)xBi1-x][Mo xV1-x]O4 microwave dielectric ceramics

Di Zhou; Clive A. Randall; Hong Wang; Li Xia Pang; Xi Yao

doi:10.1111/j.1551-2916.2010.03689.x

Ultra-low firing high-k scheelite structures based on [(Li _0.5Bi_0.5)_xBi_1-x][Mo _xV_1-x]O₄ microwave dielectric ceramics

Di Zhou, Clive A. Randall, Hong Wang, Li Xia Pang, Xi Yao

Research output: Contribution to journal › Article › peer-review

64 Scopus citations

Abstract

In this work, dense ceramic samples across the solid solution of the [(Li_0.5Bi_0.5)_xBi_1-x][Mo _xV_1-x]O₄ system are prepared using the solid-state reaction process. The monoclinic phase region could be obtained for 0≤x<0.098 and the scheelite tetragonal solid solution region could be obtained for 0.098<x≤1. When x=0.098, the boundary composition [(Li _0.5Bi_0.5)_0.098Bi_0.902][Mo _0.098V_0.902]O₄ could be readily sintered at 650°C and also have excellent microwave properties with a high relative permittivity of 81, and a Q × f value of 8000 GHz and a low temperature coefficient of +9.7 ppm/°C. This ceramic is chemically compatible with both Al and Cu electrode materials at its sintering temperature. It can be an excellent candidate for ultra-low-temperature co-fired ceramic technology and is the highest permittivity microwave material found to date with sintering considerations as low as 650°C.

Original language	English (US)
Pages (from-to)	2147-2150
Number of pages	4
Journal	Journal of the American Ceramic Society
Volume	93
Issue number	8
DOIs	https://doi.org/10.1111/j.1551-2916.2010.03689.x
State	Published - Aug 2010

All Science Journal Classification (ASJC) codes

Ceramics and Composites
Materials Chemistry

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10.1111/j.1551-2916.2010.03689.x

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title = "Ultra-low firing high-k scheelite structures based on [(Li 0.5Bi0.5)xBi1-x][Mo xV1-x]O4 microwave dielectric ceramics",

abstract = "In this work, dense ceramic samples across the solid solution of the [(Li0.5Bi0.5)xBi1-x][Mo xV1-x]O4 system are prepared using the solid-state reaction process. The monoclinic phase region could be obtained for 0≤x<0.098 and the scheelite tetragonal solid solution region could be obtained for 0.0980.5Bi0.5)0.098Bi0.902][Mo 0.098V0.902]O4 could be readily sintered at 650°C and also have excellent microwave properties with a high relative permittivity of 81, and a Q × f value of 8000 GHz and a low temperature coefficient of +9.7 ppm/°C. This ceramic is chemically compatible with both Al and Cu electrode materials at its sintering temperature. It can be an excellent candidate for ultra-low-temperature co-fired ceramic technology and is the highest permittivity microwave material found to date with sintering considerations as low as 650°C.",

author = "Di Zhou and Randall, {Clive A.} and Hong Wang and Pang, {Li Xia} and Xi Yao",

year = "2010",

month = aug,

doi = "10.1111/j.1551-2916.2010.03689.x",

language = "English (US)",

volume = "93",

pages = "2147--2150",

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T1 - Ultra-low firing high-k scheelite structures based on [(Li 0.5Bi0.5)xBi1-x][Mo xV1-x]O4 microwave dielectric ceramics

AU - Zhou, Di

AU - Randall, Clive A.

AU - Wang, Hong

AU - Pang, Li Xia

AU - Yao, Xi

PY - 2010/8

Y1 - 2010/8

N2 - In this work, dense ceramic samples across the solid solution of the [(Li0.5Bi0.5)xBi1-x][Mo xV1-x]O4 system are prepared using the solid-state reaction process. The monoclinic phase region could be obtained for 0≤x<0.098 and the scheelite tetragonal solid solution region could be obtained for 0.0980.5Bi0.5)0.098Bi0.902][Mo 0.098V0.902]O4 could be readily sintered at 650°C and also have excellent microwave properties with a high relative permittivity of 81, and a Q × f value of 8000 GHz and a low temperature coefficient of +9.7 ppm/°C. This ceramic is chemically compatible with both Al and Cu electrode materials at its sintering temperature. It can be an excellent candidate for ultra-low-temperature co-fired ceramic technology and is the highest permittivity microwave material found to date with sintering considerations as low as 650°C.

AB - In this work, dense ceramic samples across the solid solution of the [(Li0.5Bi0.5)xBi1-x][Mo xV1-x]O4 system are prepared using the solid-state reaction process. The monoclinic phase region could be obtained for 0≤x<0.098 and the scheelite tetragonal solid solution region could be obtained for 0.0980.5Bi0.5)0.098Bi0.902][Mo 0.098V0.902]O4 could be readily sintered at 650°C and also have excellent microwave properties with a high relative permittivity of 81, and a Q × f value of 8000 GHz and a low temperature coefficient of +9.7 ppm/°C. This ceramic is chemically compatible with both Al and Cu electrode materials at its sintering temperature. It can be an excellent candidate for ultra-low-temperature co-fired ceramic technology and is the highest permittivity microwave material found to date with sintering considerations as low as 650°C.

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JO - Journal of the American Ceramic Society

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Ultra-low firing high-k scheelite structures based on [(Li _0.5Bi_0.5)_xBi_1-x][Mo _xV_1-x]O₄ microwave dielectric ceramics

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