Enhanced permittivity and multi-region microwave absorption of nanoneedle-like ZnO in the X-band at elevated temperature

Jia Liu; Wen Qiang Cao; Hai Bo Jin; Jie Yuan; De Qing Zhang; Mao Sheng Cao

doi:10.1039/c5tc00426h

Enhanced permittivity and multi-region microwave absorption of nanoneedle-like ZnO in the X-band at elevated temperature

Jia Liu, Wen Qiang Cao, Hai Bo Jin, Jie Yuan^*, De Qing Zhang, Mao Sheng Cao

^*此作品的通讯作者

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

230 引用（Scopus）

摘要

We fabricated nanoneedle-like ZnO (ZnO_n) by a facile combustion synthesis route, demonstrating the original observations on the complex permittivity of ZnO_n ranging from 298 to 573 K and in the X band. Both real and imaginary permittivities (ε′ and ε′′) of ZnO_n depend on temperature and frequency. The ε′ increases while the ε′′ possesses a maximum value with increasing temperature. The maximum value of ε′′ appears at 473 K, and the corresponding loss tangent increases by 100% than that at 298 K. The relaxations in ε′′ mainly arise from dipole polarization and interfacial polarization in ZnO_n. Multi-region microwave absorption of ZnO_n appears at the investigated temperature and frequency as well as thickness. The minimum reflection loss value reaches -44 dB, which is superior to the previous reports. These findings provide a novel and feasible strategy to tune microwave absorption towards a structural absorber at elevated temperature.

源语言	英语
页（从-至）	4670-4677
页数	8
期刊	Journal of Materials Chemistry C
卷	3
期	18
DOI	https://doi.org/10.1039/c5tc00426h
出版状态	已出版 - 14 5月 2015

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title = "Enhanced permittivity and multi-region microwave absorption of nanoneedle-like ZnO in the X-band at elevated temperature",

abstract = "We fabricated nanoneedle-like ZnO (ZnOn) by a facile combustion synthesis route, demonstrating the original observations on the complex permittivity of ZnOn ranging from 298 to 573 K and in the X band. Both real and imaginary permittivities (ε′ and ε′′) of ZnOn depend on temperature and frequency. The ε′ increases while the ε′′ possesses a maximum value with increasing temperature. The maximum value of ε′′ appears at 473 K, and the corresponding loss tangent increases by 100% than that at 298 K. The relaxations in ε′′ mainly arise from dipole polarization and interfacial polarization in ZnOn. Multi-region microwave absorption of ZnOn appears at the investigated temperature and frequency as well as thickness. The minimum reflection loss value reaches -44 dB, which is superior to the previous reports. These findings provide a novel and feasible strategy to tune microwave absorption towards a structural absorber at elevated temperature.",

author = "Jia Liu and Cao, {Wen Qiang} and Jin, {Hai Bo} and Jie Yuan and Zhang, {De Qing} and Cao, {Mao Sheng}",

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AU - Liu, Jia

AU - Cao, Wen Qiang

AU - Jin, Hai Bo

AU - Yuan, Jie

AU - Zhang, De Qing

AU - Cao, Mao Sheng

PY - 2015/5/14

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N2 - We fabricated nanoneedle-like ZnO (ZnOn) by a facile combustion synthesis route, demonstrating the original observations on the complex permittivity of ZnOn ranging from 298 to 573 K and in the X band. Both real and imaginary permittivities (ε′ and ε′′) of ZnOn depend on temperature and frequency. The ε′ increases while the ε′′ possesses a maximum value with increasing temperature. The maximum value of ε′′ appears at 473 K, and the corresponding loss tangent increases by 100% than that at 298 K. The relaxations in ε′′ mainly arise from dipole polarization and interfacial polarization in ZnOn. Multi-region microwave absorption of ZnOn appears at the investigated temperature and frequency as well as thickness. The minimum reflection loss value reaches -44 dB, which is superior to the previous reports. These findings provide a novel and feasible strategy to tune microwave absorption towards a structural absorber at elevated temperature.

AB - We fabricated nanoneedle-like ZnO (ZnOn) by a facile combustion synthesis route, demonstrating the original observations on the complex permittivity of ZnOn ranging from 298 to 573 K and in the X band. Both real and imaginary permittivities (ε′ and ε′′) of ZnOn depend on temperature and frequency. The ε′ increases while the ε′′ possesses a maximum value with increasing temperature. The maximum value of ε′′ appears at 473 K, and the corresponding loss tangent increases by 100% than that at 298 K. The relaxations in ε′′ mainly arise from dipole polarization and interfacial polarization in ZnOn. Multi-region microwave absorption of ZnOn appears at the investigated temperature and frequency as well as thickness. The minimum reflection loss value reaches -44 dB, which is superior to the previous reports. These findings provide a novel and feasible strategy to tune microwave absorption towards a structural absorber at elevated temperature.

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Enhanced permittivity and multi-region microwave absorption of nanoneedle-like ZnO in the X-band at elevated temperature

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