4.8 Article

Fabrication of N-doped carbon nanotube/carbon fiber dendritic composites with abundant interfaces for electromagnetic wave absorption

期刊

CARBON
卷 201, 期 -, 页码 234-243

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.carbon.2022.09.033

关键词

3D hierarchical architecture; Electromagnetic wave absorption; Theoretical calculation; Carbon nanotube; Carbon nanofiber

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We have successfully fabricated N-doped carbon fibers with vertically grown N-doped carbon nanotubes using electrospinning technique and high-temperature carbonization process. Experimental and theoretical studies have shown that this hierarchical structure exhibits excellent electromagnetic wave absorption performance and provides an efficient solution for high-efficiency electromagnetic wave absorption.
Three-dimensional (3D) hierarchical nano-microstructures have shown unprecedented physicochemical properties. However, it still remains great challenge to construct well-defined architectures with 3D hierarchical feature. Herein, we develop an electrospinning technique followed by a high-temperature carbonization process to fabricate N-doped carbon fibers (NCF) with N-doped carbon nanotubes (NCNTs) vertically grown on the surface of NCF using the Fe species as catalysts. In the 3D hierarchical structures, the Fe3C nanoparticles (NPs) are embedded within NCF matrix, while the Fe NPs are encapsulated within NCNT. Due to the unique structural feature, the as-prepared hierarchical structure exhibits excellent electromagnetic wave absorption performance with an absorption bandwidth of 4.0 GHz anda minimum reflection loss of-49.56 dB with a thickness as low as 1.50 mm. Experimental and theoretical studies indicate that the enhanced electromagnetic wave absorption performance of the hierarchical structure can be explained by the increased conduction loss induced by the introduction of metallic NPs and formation of 3D conductive networks, and the enhanced polarization loss caused by the additional interfaces and defects in the hierarchical structure. This work provides an efficient way to fabricate 3D architecture for high-efficiency electromagnetic wave absorption.

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