Research progress on nanostructure design and composition regulation of carbon spheres for the microwave absorption

Microwave absorbing material is a kind of material that can absorb microwave and electromagnetic (EM) energy and has less reflection and scattering. Qualified microwave absorbers can effectively prevent EM pollution and protect human health. This review briefly introduces the principles of microwave...

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Veröffentlicht in:	Carbon (New York) 2022-04, Vol.189, p.617-633
Hauptverfasser:	Chen, Xinting, Wu, Yue, Gu, Weihua, Zhou, Ming, Tang, Shaolong, Cao, Jieming, Zou, Zhongqiu, Ji, Guangbin
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon Carbon spheres Composition Composition regulation Dielectric-magnetic components Electromagnetic wave absorption Electromagnetics Microwave absorbers Microwave absorption Microwave heating Microwaves Nanostructure Nanostructure design Nanostructured materials Synergistic effect
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creator	Chen, Xinting Wu, Yue Gu, Weihua Zhou, Ming Tang, Shaolong Cao, Jieming Zou, Zhongqiu Ji, Guangbin
description	Microwave absorbing material is a kind of material that can absorb microwave and electromagnetic (EM) energy and has less reflection and scattering. Qualified microwave absorbers can effectively prevent EM pollution and protect human health. This review briefly introduces the principles of microwave absorption (MA), more importantly, the research progress in the nanostructure design and composition regulation of carbon spheres (CSs) are reviewed. The nanostructure design is dominated by hollow and porous nature, and the composition regulation is based on conductive/dielectric, magnetic, as well as conductive/dielectric-magnetic components. Due to the synergistic effect among varieties of components and the clever nanostructure design, the CSs and their composites can achieve preferable MA performance than traditional carbon materials. At the same time, the challenges and prospects of the research on CSs are put forward, which provide new ideas for further study of microwave absorption based on CSs. This review mainly reports the structure design and composition regulation of carbon based absorbers with tunable absorbent performance. Structure design is given priority to with hollow and hollow porous structures, and the composition regulation is adjusted mainly by adding conductive, dielectric and magnetic materials. [Display omitted]
doi_str_mv	10.1016/j.carbon.2021.12.100
format	Article
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Qualified microwave absorbers can effectively prevent EM pollution and protect human health. This review briefly introduces the principles of microwave absorption (MA), more importantly, the research progress in the nanostructure design and composition regulation of carbon spheres (CSs) are reviewed. The nanostructure design is dominated by hollow and porous nature, and the composition regulation is based on conductive/dielectric, magnetic, as well as conductive/dielectric-magnetic components. Due to the synergistic effect among varieties of components and the clever nanostructure design, the CSs and their composites can achieve preferable MA performance than traditional carbon materials. At the same time, the challenges and prospects of the research on CSs are put forward, which provide new ideas for further study of microwave absorption based on CSs. This review mainly reports the structure design and composition regulation of carbon based absorbers with tunable absorbent performance. Structure design is given priority to with hollow and hollow porous structures, and the composition regulation is adjusted mainly by adding conductive, dielectric and magnetic materials. 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subjects	Carbon Carbon spheres Composition Composition regulation Dielectric-magnetic components Electromagnetic wave absorption Electromagnetics Microwave absorbers Microwave absorption Microwave heating Microwaves Nanostructure Nanostructure design Nanostructured materials Synergistic effect
title	Research progress on nanostructure design and composition regulation of carbon spheres for the microwave absorption
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