In-situ growth of MAX phase coatings on carbonised wood and their terahertz shielding properties

Jiaxuan Huang; Hujie Wan; Mian Li; Yiming Zhang; Jianfeng Zhu; Xuelin Li; Wenchao Shui; Yao Li; Xiaomeng Fan; Qiye Wen; Xu Xiao; Qing Huang

doi:10.1007/s40145-021-0504-z

In-situ growth of MAX phase coatings on carbonised wood and their terahertz shielding properties

Jiaxuan Huang, Hujie Wan, Mian Li, Yiming Zhang, Jianfeng Zhu, Xuelin Li, Wenchao Shui, Yao Li, Xiaomeng Fan, Qiye Wen, Xu Xiao, Qing Huang

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

30 引用（Scopus）

摘要

Electromagnetic interference (EMI) shielding materials have received considerable attention in recent years. The EMI shielding effectiveness (SE) of materials depends on not only their composition but also their microstructures. Among various microstructure prototypes, porous structures provide the advantages of low density and high terahertz wave absorption. In this study, by using carbonised wood (CW) as a template, 1-mm-thick MAX@CW composites (Ti₂AlC@CW, V₂AlC@CW, and Cr₂AlC@CW) with a porous structure were fabricated through the molten salt method. The MAX@CW composites led to the formation of a conductive network and multilayer interface, which resulted in improved EMI SE. The average EMI SE values of the three MAX@CW composites were > 45 dB in the frequency of 0.6–1.6 THz. Among the composites, V₂AlC@CW exhibited the highest average EMI SE of 55 dB.

源语言	英语
页（从-至）	1291-1298
页数	8
期刊	Journal of Advanced Ceramics
卷	10
期	6
DOI	https://doi.org/10.1007/s40145-021-0504-z
出版状态	已出版 - 12月 2021

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abstract = "Electromagnetic interference (EMI) shielding materials have received considerable attention in recent years. The EMI shielding effectiveness (SE) of materials depends on not only their composition but also their microstructures. Among various microstructure prototypes, porous structures provide the advantages of low density and high terahertz wave absorption. In this study, by using carbonised wood (CW) as a template, 1-mm-thick MAX@CW composites (Ti2AlC@CW, V2AlC@CW, and Cr2AlC@CW) with a porous structure were fabricated through the molten salt method. The MAX@CW composites led to the formation of a conductive network and multilayer interface, which resulted in improved EMI SE. The average EMI SE values of the three MAX@CW composites were > 45 dB in the frequency of 0.6–1.6 THz. Among the composites, V2AlC@CW exhibited the highest average EMI SE of 55 dB.",

keywords = "biomimics, electromagnetic interference (EMI), MAX phases, terahertz shielding",

author = "Jiaxuan Huang and Hujie Wan and Mian Li and Yiming Zhang and Jianfeng Zhu and Xuelin Li and Wenchao Shui and Yao Li and Xiaomeng Fan and Qiye Wen and Xu Xiao and Qing Huang",

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doi = "10.1007/s40145-021-0504-z",

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T1 - In-situ growth of MAX phase coatings on carbonised wood and their terahertz shielding properties

AU - Huang, Jiaxuan

AU - Wan, Hujie

AU - Li, Mian

AU - Zhang, Yiming

AU - Zhu, Jianfeng

AU - Li, Xuelin

AU - Shui, Wenchao

AU - Li, Yao

AU - Fan, Xiaomeng

AU - Wen, Qiye

AU - Xiao, Xu

AU - Huang, Qing

PY - 2021/12

Y1 - 2021/12

N2 - Electromagnetic interference (EMI) shielding materials have received considerable attention in recent years. The EMI shielding effectiveness (SE) of materials depends on not only their composition but also their microstructures. Among various microstructure prototypes, porous structures provide the advantages of low density and high terahertz wave absorption. In this study, by using carbonised wood (CW) as a template, 1-mm-thick MAX@CW composites (Ti2AlC@CW, V2AlC@CW, and Cr2AlC@CW) with a porous structure were fabricated through the molten salt method. The MAX@CW composites led to the formation of a conductive network and multilayer interface, which resulted in improved EMI SE. The average EMI SE values of the three MAX@CW composites were > 45 dB in the frequency of 0.6–1.6 THz. Among the composites, V2AlC@CW exhibited the highest average EMI SE of 55 dB.

AB - Electromagnetic interference (EMI) shielding materials have received considerable attention in recent years. The EMI shielding effectiveness (SE) of materials depends on not only their composition but also their microstructures. Among various microstructure prototypes, porous structures provide the advantages of low density and high terahertz wave absorption. In this study, by using carbonised wood (CW) as a template, 1-mm-thick MAX@CW composites (Ti2AlC@CW, V2AlC@CW, and Cr2AlC@CW) with a porous structure were fabricated through the molten salt method. The MAX@CW composites led to the formation of a conductive network and multilayer interface, which resulted in improved EMI SE. The average EMI SE values of the three MAX@CW composites were > 45 dB in the frequency of 0.6–1.6 THz. Among the composites, V2AlC@CW exhibited the highest average EMI SE of 55 dB.

KW - biomimics

KW - electromagnetic interference (EMI)

KW - MAX phases

KW - terahertz shielding

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U2 - 10.1007/s40145-021-0504-z

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M3 - 文章

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SN - 2226-4108

VL - 10

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JO - Journal of Advanced Ceramics

JF - Journal of Advanced Ceramics

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ER -

In-situ growth of MAX phase coatings on carbonised wood and their terahertz shielding properties

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