Influence of Fe–B addition on electromagnetic wave absorption properties of RGO composite

Guosheng Wen; Xiuchen Zhao; Ying Liu; Jingfang Ma

doi:10.1007/s10854-018-9048-6

Influence of Fe–B addition on electromagnetic wave absorption properties of RGO composite

Guosheng Wen, Xiuchen Zhao^*, Ying Liu, Jingfang Ma

^*此作品的通讯作者

材料学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

6 引用（Scopus）

摘要

The Fe–B amorphous nano-particle with reduced graphene oxide (FeB@RGO) has been successfully prepared as a novel absorbing material of light-weight broadband electromagnetic wave (EW). This paper studied the influence of the thickness of the sample and the paraffin amount on absorption properties of the composite to EW. According to the research results, the absorption peak occurred in a low frequency region as the thickness increased, and only 5 wt% FeB@RGO added to the paraffin 2.2 mm thick has the optimal EW absorption property. Compared to Fe–B particles and RGO, the FeB@RGO as EW absorbing materials have better absorbing properties with higher reflectivity (− 49.13 dB), wider bandwidth (6.64 GHz) and smaller addition concentration (5 wt%), which is more suitable as an efficient and light-weight EW absorber.

源语言	英语
页（从-至）	10044-10053
页数	10
期刊	Journal of Materials Science: Materials in Electronics
卷	29
期	12
DOI	https://doi.org/10.1007/s10854-018-9048-6
出版状态	已出版 - 1 6月 2018

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title = "Influence of Fe–B addition on electromagnetic wave absorption properties of RGO composite",

abstract = "The Fe–B amorphous nano-particle with reduced graphene oxide (FeB@RGO) has been successfully prepared as a novel absorbing material of light-weight broadband electromagnetic wave (EW). This paper studied the influence of the thickness of the sample and the paraffin amount on absorption properties of the composite to EW. According to the research results, the absorption peak occurred in a low frequency region as the thickness increased, and only 5 wt% FeB@RGO added to the paraffin 2.2 mm thick has the optimal EW absorption property. Compared to Fe–B particles and RGO, the FeB@RGO as EW absorbing materials have better absorbing properties with higher reflectivity (− 49.13 dB), wider bandwidth (6.64 GHz) and smaller addition concentration (5 wt%), which is more suitable as an efficient and light-weight EW absorber.",

author = "Guosheng Wen and Xiuchen Zhao and Ying Liu and Jingfang Ma",

note = "Publisher Copyright: {\textcopyright} 2018, Springer Science+Business Media, LLC, part of Springer Nature.",

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AU - Wen, Guosheng

AU - Zhao, Xiuchen

AU - Liu, Ying

AU - Ma, Jingfang

PY - 2018/6/1

Y1 - 2018/6/1

N2 - The Fe–B amorphous nano-particle with reduced graphene oxide (FeB@RGO) has been successfully prepared as a novel absorbing material of light-weight broadband electromagnetic wave (EW). This paper studied the influence of the thickness of the sample and the paraffin amount on absorption properties of the composite to EW. According to the research results, the absorption peak occurred in a low frequency region as the thickness increased, and only 5 wt% FeB@RGO added to the paraffin 2.2 mm thick has the optimal EW absorption property. Compared to Fe–B particles and RGO, the FeB@RGO as EW absorbing materials have better absorbing properties with higher reflectivity (− 49.13 dB), wider bandwidth (6.64 GHz) and smaller addition concentration (5 wt%), which is more suitable as an efficient and light-weight EW absorber.

AB - The Fe–B amorphous nano-particle with reduced graphene oxide (FeB@RGO) has been successfully prepared as a novel absorbing material of light-weight broadband electromagnetic wave (EW). This paper studied the influence of the thickness of the sample and the paraffin amount on absorption properties of the composite to EW. According to the research results, the absorption peak occurred in a low frequency region as the thickness increased, and only 5 wt% FeB@RGO added to the paraffin 2.2 mm thick has the optimal EW absorption property. Compared to Fe–B particles and RGO, the FeB@RGO as EW absorbing materials have better absorbing properties with higher reflectivity (− 49.13 dB), wider bandwidth (6.64 GHz) and smaller addition concentration (5 wt%), which is more suitable as an efficient and light-weight EW absorber.

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Influence of Fe–B addition on electromagnetic wave absorption properties of RGO composite

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