Core-Sheath CNT@MXene Fibers Toward Absorption-Dominated Electromagnetic Interference Shielding Fabrics

IF 17.2 1区 工程技术 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Weidong Feng, Lihua Zou, Chuntao Lan, Shiju E, Xiong Pu
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Abstract

Absorption-dominated electromagnetic interference (EMI) shielding fabrics are urgently needed to address the increasingly severe electromagnetic radiation pollution, especially the secondary radiation problem. In this study, we design novel core-sheath CNT@MXene fibers with a gradient conductive structure and corresponding fabrics to realize absorption-dominated EMI shielding performances. This coaxial structure utilizes carbon nanotubes (CNTs) as the sheath and MXene as the core and is constructed through a wet spinning technique. By virtue of the core-sheath structure, the conductive gradient structure in the fibers is easily optimized by adjusting the core MXene and sheath CNT content. This gradient conductive network of fiber effectively facilitates the incidence of electromagnetic waves and strong interactions between electromagnetic waves and the composites, resulting in excellent EMI absorption ability. Within the X-band frequency range, the fabric exhibits an electromagnetic interference shielding effectiveness of 23.40 dB and an absorption coefficient of 0.63. Due to the protection of polymer, the fiber’s electrical conductivity remains stable under conditions such as multi-cycle bending, stretching, and ultrasonic treatment, and in high relative humidity environments. Additionally, the fabric also demonstrates EMI shielding stability in indoor environments. This work indicates the great potential of the gradient structured fibers to achieve an absorption-dominated mechanism for next-generation eco-friendly EMI shielding fabrics.

Graphical abstract

Abstract Image

实现以吸收为主的电磁干扰屏蔽织物的芯-鞘 CNT@MXene 纤维
为应对日益严重的电磁辐射污染,尤其是二次辐射问题,迫切需要以吸收为主的电磁干扰(EMI)屏蔽织物。在这项研究中,我们设计了具有梯度导电结构的新型芯鞘 CNT@MXene 纤维和相应的织物,以实现以吸收为主的电磁干扰屏蔽性能。这种同轴结构以碳纳米管(CNT)为鞘,MXene 为芯,通过湿法纺丝技术制成。由于采用了芯-鞘结构,因此可以通过调整芯 MXene 和鞘 CNT 的含量,轻松优化纤维中的导电梯度结构。这种梯度导电纤维网络有效地促进了电磁波的入射,并使电磁波与复合材料之间产生强烈的相互作用,从而实现了出色的电磁干扰吸收能力。在 X 波段频率范围内,织物的电磁干扰屏蔽效果为 23.40 dB,吸收系数为 0.63。由于聚合物的保护作用,纤维的导电性能在多周期弯曲、拉伸、超声波处理和高相对湿度环境等条件下保持稳定。此外,这种纤维还能在室内环境中稳定地屏蔽电磁干扰。这项工作表明,梯度结构纤维在实现下一代环保型 EMI 屏蔽织物的吸收主导机制方面具有巨大潜力。
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来源期刊
CiteScore
18.70
自引率
11.20%
发文量
109
期刊介绍: Advanced Fiber Materials is a hybrid, peer-reviewed, international and interdisciplinary research journal which aims to publish the most important papers in fibers and fiber-related devices as well as their applications.Indexed by SCIE, EI, Scopus et al. Publishing on fiber or fiber-related materials, technology, engineering and application.
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