具有优异微波吸收性能的中空多孔 FeCo/Cu/CNTs 复合微球

IF 9.5 2区 材料科学 Q1 CHEMISTRY, PHYSICAL
Xiaowei Liu, Linhe Yu, Guozhen Zhu, Zhipeng Wang, Gangjie Lian, Xuhui Xiong, Wenbin You, Renchao Che
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引用次数: 0

摘要

具有众多异质界面的磁介质复合材料是极具发展前景的功能材料,在电磁波吸收领域得到广泛应用。构建异质结构有利于进一步提高复合材料的微波吸收性能。然而,多异质界面的构建过程极为复杂。本研究采用简单的喷雾干燥法和两步退火法制备了中空多孔的 FeCo/Cu/CNTs 复合微球,该微球具有丰富的异质界面、独特的三维导电网络和磁耦合网络。这种独特的结构有利于提高介电损耗和磁损耗能力,进而实现优异的微波吸收性能。所制备的 FeCo/Cu/CNTs-1 复合微球在厚度为 1.8 毫米时,最小反射损耗(RL)为 -48.1 dB,最大有效吸收带宽为 5.76 GHz。总体而言,这项研究为设计多异质微波吸收材料提供了新思路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Hollow porous FeCo/Cu/CNTs composite microspheres with excellent microwave absorption performance

Hollow porous FeCo/Cu/CNTs composite microspheres with excellent microwave absorption performance

Magnetic/dielectric composite materials with numerous heterointerfaces are highly promising functional materials, which are widely applied in the fields of electromagnetic wave absorption. Constructing heterogeneous structure is beneficial to further enhance the microwave absorption performance of composite materials. However, the process of constructing multi-heterogeneous interfaces is extremely complex. In this work, hollow porous FeCo/Cu/CNTs composite microspheres are prepared by the simple spray drying method and subsequently two-step annealing treatment, which possess abundant heterogeneous interfaces, unique three-dimensional conductive network and magnetic coupling network. This unique structure is beneficial to improving the ability of dielectric loss and magnetic loss, and then achieving an excellent microwave absorption performance. The prepared FeCo/Cu/CNTs-1 composite microspheres maintain a minimum reflection loss (RL) of −48.1 dB and a maximum effective absorption bandwidth of 5.76 GHz at a thickness of 1.8 mm. Generally, this work provides a new idea for designing multi-heterogeneous of microwave absorbing materials.

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来源期刊
Nano Research
Nano Research 化学-材料科学:综合
CiteScore
14.30
自引率
11.10%
发文量
2574
审稿时长
1.7 months
期刊介绍: Nano Research is a peer-reviewed, international and interdisciplinary research journal that focuses on all aspects of nanoscience and nanotechnology. It solicits submissions in various topical areas, from basic aspects of nanoscale materials to practical applications. The journal publishes articles on synthesis, characterization, and manipulation of nanomaterials; nanoscale physics, electrical transport, and quantum physics; scanning probe microscopy and spectroscopy; nanofluidics; nanosensors; nanoelectronics and molecular electronics; nano-optics, nano-optoelectronics, and nano-photonics; nanomagnetics; nanobiotechnology and nanomedicine; and nanoscale modeling and simulations. Nano Research offers readers a combination of authoritative and comprehensive Reviews, original cutting-edge research in Communication and Full Paper formats. The journal also prioritizes rapid review to ensure prompt publication.
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