Enhanced electromagnetic wave absorption of nanoporous Fe3O4 @ carbon composites derived from metal-organic frameworks

Xiang Zhen; Song Yiming; Xiong Juan; Pan Zhongbin; Wang Xiao; Liu Lei; Liu Rui; Yang Huawei; Lu Wei

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Enhanced electromagnetic wave absorption of nanoporous Fe3O4 @ carbon composites derived from metal-organic frameworks

机译：增强纳米孔Fe3O4的电磁波吸收源自金属 - 有机框架的碳复合材料

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Electromagnetic wave absorbing materials have been widely applied in the wireless communication, electronic devices, and radar technology. In this work, metal-organic frameworks derived nanoporous Fe3O4 @ carbon (Fe3O4@NPC) composites were successfully obtained by a simple method. Electromagnetic wave absorbing performances were significantly enhanced due to the optimal impedance matching and strong attenuation via the synergy between the dielectric loss and the magnetic loss. As a result, the Fe3O4@NPC composites exhibited excellent electromagnetic wave absorbing properties, in which a strong reflection loss (RL) of -65.5 dB at 9.8 GHz as well as a wide absorbing bandwidth of 4.5 GHz (RL -10 dB) with a matching thickness of 3.0 mm were achieved. Therefore, the present work can provide a new paradigm for the design and synthesis of electromagnetic wave absorbing materials possessing a promising application potential. (C) 2018 Elsevier Ltd. All rights reserved.

机译：电磁波吸收材料已广泛应用于无线通信，电子设备和雷达技术。在这项工作中，通过简单的方法成功地获得了金属 - 有机框架衍生的纳米孔Fe3O4 @碳（Fe3O4 @ NPC）复合材料。由于通过介电损耗与磁力损失之间的协同作用，电磁波吸收性能显着增强。结果，Fe3O4 @ NPC复合材料表现出优异的电磁波吸收性能，其中9.8GHz的强烈反射损失（RL）为-65.5dB，以及4.5GHz的宽吸收带宽（R1. -10 dB）达到匹配厚度为3.0mm。因此，本作本作能为具有有前途的应用势的电磁波吸收材料的设计和合成提供新的范例。（c）2018年elestvier有限公司保留所有权利。

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来源
《Carbon: An International Journal Sponsored by the American Carbon Society 》 |2019年第2019期| 共12页
作者
Xiang Zhen; Song Yiming; Xiong Juan; Pan Zhongbin; Wang Xiao; Liu Lei; Liu Rui; Yang Huawei; Lu Wei;
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作者单位

Tongji Univ Affiliated Shanghai Peoples Hosp 10 Dept Dent Shanghai 00072 Peoples R China;

Tongji Univ Sch Mat Sci &

Engn Shanghai Key Lab D&

A Met Funct Mat Shanghai 201804 Peoples R China;

Tongji Univ Sch Mat Sci &

Engn Shanghai Key Lab D&

A Met Funct Mat Shanghai 201804 Peoples R China;

Tongji Univ Sch Mat Sci &

Engn Shanghai Key Lab D&

A Met Funct Mat Shanghai 201804 Peoples R China;

Tongji Univ Sch Mat Sci &

Engn Shanghai Key Lab D&

A Met Funct Mat Shanghai 201804 Peoples R China;

Shanghai Jiao Tong Univ Sch Mat Sci &

Engn State Key Lab Met Matrix Composites Shanghai 200240 Peoples R China;

Tongji Univ Sch Mat Sci &

Engn Shanghai Key Lab D&

A Met Funct Mat Shanghai 201804 Peoples R China;

Tongji Univ Affiliated Shanghai Peoples Hosp 10 Dept Dent Shanghai 00072 Peoples R China;

Tongji Univ Sch Mat Sci &

Engn Shanghai Key Lab D&

A Met Funct Mat Shanghai 201804 Peoples R China;

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正文语种 eng
中图分类非金属元素及其无机化合物化学工业 ; 化学 ; 非金属材料 ; 第Ⅳ族非金属元素及其无机化合物 ;
关键词
Metal-organic frameworks; Nanoporous Fe3O4@C; Dielectric loss; Magnetic loss; Electromagnetic wave absorption;

机译：金属有机框架;纳米孔Fe3O4 @ C;介电损耗;磁力损失;电磁波吸收;

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机译：增强纳米孔Fe3O4的电磁波吸收源自金属 - 有机框架的碳复合材料
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机译：纳米多孔二氧化硅基质和碳水合物金属有机骨架中客体-主体相互作用的热力学。
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机译：蜂窝状碳质复合材料内多孔建筑和磁Fe3O4 nps的显着推广，用于增强微波吸收

Enhanced electromagnetic wave absorption of nanoporous Fe3O4 @ carbon composites derived from metal-organic frameworks

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