High-entropy alloy@air@Ni–NiO core-shell microspheres for electromagnetic absorption applications

Hongjing Wu; Di Lan; Bo Li; Limin Zhang; Ying Fu; Yi Zhang; Hui Xing

doi:10.1016/j.compositesb.2019.107524

High-entropy alloy@air@Ni–NiO core-shell microspheres for electromagnetic absorption applications

Hongjing Wu, Di Lan, Bo Li, Limin Zhang, Ying Fu, Yi Zhang, Hui Xing

物理科学与技术学院

科研成果: 期刊稿件 › 文章 › 同行评审

120 引用（Scopus）

摘要

Core-shell microspheres with high-entropy alloy (HEA: FeCoNiCrCuAl_0.3) as core and metal oxide (Ni–NiO) as shell have been successfully constructed via a two-step hydrothermal method. The chemical composition, microstructure, electromagnetic (EM) properties and EM wave absorption properties were characterized in detail. We find that the magnetic loss originated from high-entropy alloy and the dielectric loss caused by Ni–NiO can promote the consumption of EM energy through synergistic effect. The effective absorption bandwidth (f_E, RL < −10 dB) of HEA@air@Ni–NiO composites was 4.0 GHz with an ultra-thin matching thickness (d) of 1.3 mm. We believe that this HEA@air@Ni–NiO composite can be a new generation of high-efficiency high-entropy alloy based EM wave absorber because of its strong EM wave absorption capability under an ultra-thin matching thickness. In addition, the new preparation method of core-shell micro-/nanostructure also has important reference value.

源语言	英语
文章编号	107524
期刊	Composites Part B: Engineering
卷	179
DOI	https://doi.org/10.1016/j.compositesb.2019.107524
出版状态	已出版 - 15 12月 2019

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title = "High-entropy alloy@air@Ni–NiO core-shell microspheres for electromagnetic absorption applications",

abstract = "Core-shell microspheres with high-entropy alloy (HEA: FeCoNiCrCuAl0.3) as core and metal oxide (Ni–NiO) as shell have been successfully constructed via a two-step hydrothermal method. The chemical composition, microstructure, electromagnetic (EM) properties and EM wave absorption properties were characterized in detail. We find that the magnetic loss originated from high-entropy alloy and the dielectric loss caused by Ni–NiO can promote the consumption of EM energy through synergistic effect. The effective absorption bandwidth (fE, RL < −10 dB) of HEA@air@Ni–NiO composites was 4.0 GHz with an ultra-thin matching thickness (d) of 1.3 mm. We believe that this HEA@air@Ni–NiO composite can be a new generation of high-efficiency high-entropy alloy based EM wave absorber because of its strong EM wave absorption capability under an ultra-thin matching thickness. In addition, the new preparation method of core-shell micro-/nanostructure also has important reference value.",

keywords = "EM wave absorption, High-entropy alloy, Metal oxide, Synergistic effect",

author = "Hongjing Wu and Di Lan and Bo Li and Limin Zhang and Ying Fu and Yi Zhang and Hui Xing",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier Ltd",

year = "2019",

month = dec,

day = "15",

doi = "10.1016/j.compositesb.2019.107524",

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T1 - High-entropy alloy@air@Ni–NiO core-shell microspheres for electromagnetic absorption applications

AU - Wu, Hongjing

AU - Lan, Di

AU - Li, Bo

AU - Zhang, Limin

AU - Fu, Ying

AU - Zhang, Yi

AU - Xing, Hui

PY - 2019/12/15

Y1 - 2019/12/15

N2 - Core-shell microspheres with high-entropy alloy (HEA: FeCoNiCrCuAl0.3) as core and metal oxide (Ni–NiO) as shell have been successfully constructed via a two-step hydrothermal method. The chemical composition, microstructure, electromagnetic (EM) properties and EM wave absorption properties were characterized in detail. We find that the magnetic loss originated from high-entropy alloy and the dielectric loss caused by Ni–NiO can promote the consumption of EM energy through synergistic effect. The effective absorption bandwidth (fE, RL < −10 dB) of HEA@air@Ni–NiO composites was 4.0 GHz with an ultra-thin matching thickness (d) of 1.3 mm. We believe that this HEA@air@Ni–NiO composite can be a new generation of high-efficiency high-entropy alloy based EM wave absorber because of its strong EM wave absorption capability under an ultra-thin matching thickness. In addition, the new preparation method of core-shell micro-/nanostructure also has important reference value.

AB - Core-shell microspheres with high-entropy alloy (HEA: FeCoNiCrCuAl0.3) as core and metal oxide (Ni–NiO) as shell have been successfully constructed via a two-step hydrothermal method. The chemical composition, microstructure, electromagnetic (EM) properties and EM wave absorption properties were characterized in detail. We find that the magnetic loss originated from high-entropy alloy and the dielectric loss caused by Ni–NiO can promote the consumption of EM energy through synergistic effect. The effective absorption bandwidth (fE, RL < −10 dB) of HEA@air@Ni–NiO composites was 4.0 GHz with an ultra-thin matching thickness (d) of 1.3 mm. We believe that this HEA@air@Ni–NiO composite can be a new generation of high-efficiency high-entropy alloy based EM wave absorber because of its strong EM wave absorption capability under an ultra-thin matching thickness. In addition, the new preparation method of core-shell micro-/nanostructure also has important reference value.

KW - EM wave absorption

KW - High-entropy alloy

KW - Metal oxide

KW - Synergistic effect

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DO - 10.1016/j.compositesb.2019.107524

M3 - 文章

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SN - 1359-8368

VL - 179

JO - Composites Part B: Engineering

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ER -

High-entropy alloy@air@Ni–NiO core-shell microspheres for electromagnetic absorption applications

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