Ag anchored mesoporous carbon hollow sphere in Cellulose nanofibers/MXene composite films for high-performance electromagnetic interference shielding

Wenting Tao, Wenqin Shao, Meng Ma, Si Chen, Yanqin Shi, Huiwen He, Yulu Zhu, Xu Wang
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Abstract

The increasingly serious electromagnetic (EM) radiation and related pollution effects have gradually attracted people's attention in the information age. Hence, it's crucial to develop adaptive shielding materials with minimum EM waves (EMW) reflection. In this paper, Ag nanoparticles loaded mesoporous carbon hollow spheres (MCHS@Ag) were synthesized by chemical reduction method, and cellulose nanofibers (CNF)/MXene/MCHS@Ag homogeneous composites were prepared. The total EM interference shielding efficiency (SE) of CNF/MXene/MCHS@Ag composite film was 32.83 ​dB (at 12.4 ​GHz), and the absorption effectiveness (SE) was improved to 26.6 ​dB, which was 63.1% and 195.5% higher than that of CNF/MXene/MCHS composite film. The low dielectric property of MCHS effectively optimized the impedance matching between the composites and air. The hollow porous structure prolonged the transmission path of EMW and increased the absorption loss of the composites. At the same time, Ag nanoparticles located the MCHS were helpful to construct the internal conductive path overcoming the damage of the conductive property caused by the low dielectric of MCHS. This research adopts a straightforward method to construct a lightweight, pliable, and mesoporous composites for EMI shielding, which serves a crucial role in the current era of severe EM pollution.
用于高性能电磁干扰屏蔽的纤维素纳米纤维/MXene 复合薄膜中的银锚介孔碳空心球
在信息时代,日益严重的电磁辐射及相关污染效应已逐渐引起人们的关注。因此,开发电磁波(EMW)反射最小的自适应屏蔽材料至关重要。本文采用化学还原法合成了负载Ag纳米颗粒的介孔碳空心球(MCHS@Ag),并制备了纤维素纳米纤维(CNF)/MXene/MCHS@Ag均相复合材料。CNF/MXene/MCHS@Ag复合膜的电磁干扰总屏蔽效率(SE)为32.83 dB(12.4 GHz时),吸收效率(SE)提高到26.6 dB,分别比CNF/MXene/MCHS复合膜提高了63.1%和195.5%。MCHS 的低介电性能有效优化了复合材料与空气之间的阻抗匹配。中空多孔结构延长了电磁波的传输路径,增加了复合材料的吸收损耗。同时,位于 MCHS 中的 Ag 纳米粒子有助于构建内部导电路径,克服了 MCHS 低介电特性对导电性能的破坏。该研究采用一种简单的方法构建了一种轻质、柔韧的介孔复合材料,用于电磁干扰屏蔽,在当前电磁污染严重的时代发挥了重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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