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Research Article

3D-structured carbon nanotube fibers as ultra-robust fabrics for adaptive electromagnetic shielding

Dongping Li1,2Ping Wang2Yuanyuan Li2Zhenzhong Yong1Kunjie Wu1Yan Zhang2( )Jin Wang1( )Dongmei Hu1( )
Key Laboratory of Multifunctional and Smart Systems, Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences, Suzhou 215123, China
College of Textile and Clothing Engineering of Soochow University, Suzhou 215021, China
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Abstract

Wireless communication technology is indispensable in our daily lives, but it also results in serious electromagnetic radiation pollution. Hence, developing smart electromagnetic interference shielding materials with adjustable electromagnetic wave (EMW) responses holds significant promise for future electromagnetic shielding devices. In this study, we propose an electromagnetic shielding switch (ESS) characterized by tunable electromagnetic shielding performance achieved by fabricating a three-dimensional (3D) carbon nanotube-based spacer fabric (CNT-SF) and modifying CNT-SF with chemical vapor deposition (CCNT-SF). The CCNT-SF displays direction-dependent electrical conductivity by manipulating the warp and weft density, measuring 128 S/m transversely and 447 S/m vertically. This characteristic allows the CCNT-SF to transmit or shield EMW by adjusting the angle of EMW incidence through fabric rotation, resulting in anisotropic electromagnetic shielding performance (33 dB transversely and 87 dB vertically). This feature enables switchable shielding with an on/off ratio of 2.64. Furthermore, the unique 3D structure confers excellent mechanical properties on the fabric, with compressive strength reaching 120 kPa. As a flexible, lightweight, and mechanically robust ESS, the CCNT-SF holds promising prospects for mitigating the challenges of increasingly severe and intricate electromagnetic environments.

Graphical Abstract

This article prepared a three-dimensional (3D) carbon nanotube-based spacer fabric (CNT-SF) with tunable electromagnetic shielding properties through weaving technology. By rotating the direction of modifying CNT-SF with chemical vapor deposition (CCNT-SF), the shielding effectiveness can be changed from 33 to 87 dB. Meanwhile, the CCNT-SF shows great mechanical properties and electric heating performance.

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Nano Research
Pages 8521-8530

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Cite this article:
Li D, Wang P, Li Y, et al. 3D-structured carbon nanotube fibers as ultra-robust fabrics for adaptive electromagnetic shielding. Nano Research, 2024, 17(9): 8521-8530. https://doi.org/10.1007/s12274-024-6814-z
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Received: 26 April 2024
Revised: 03 June 2024
Accepted: 09 June 2024
Published: 11 July 2024
© Tsinghua University Press 2024