Absorption-dominant EMI shielding performance of multiple folded Bi2Se3/PVDF nanocomposite films

IF 8.4 1区材料科学 Q1 CHEMISTRY, PHYSICAL

Journal of Materiomics Pub Date : 2024-01-01 DOI:10.1016/j.jmat.2023.04.003

Xinyi Pu , Zunpeng Feng , Siyuan Sun , Ke Bi , Yanan Hao

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Abstract

Absorption-dominant electromagnetic interference (EMI) shielding materials are promising in reducing electromagnetic radiation pollution, but their preparation processes are usually difficult and unsuitable for large-scale preparation. In this work, multiple folded Bi₂Se₃/PVDF nanocomposite films were fabricated by using a convenient tape-casting method and multiple folding, which can be easily extended in industrial applications. The EMI shielding effectiveness (SE) of the composite materials was investigated, which shows typical absorption-dominant behavior and can substantially reduce secondary reflections. Specifically, for the 35%(in volume) Bi₂Se₃/PVDF nanocomposite film, the SE_A of single-layered film with a thickness of 60 μm reaches 20 dB while SE_R is lower than 5 dB. After folding the film into eight layers, the SE_A increased to 50 dB while SE_R remains below 5 dB. This method provides an effective way to the fabrication of absorption-dominant electromagnetic absorption (EMA) and EMI shielding material.

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多层折叠Bi2Se3/PVDF纳米复合膜的吸收主导型电磁干扰屏蔽性能

以吸收为主的电磁干扰（EMI）屏蔽材料在减少电磁辐射污染方面具有广阔的前景，但其制备工艺通常比较困难，不适合大规模制备。本研究采用便捷的胶带浇铸法和多重折叠法制备了多重折叠的 Bi2Se3/PVDF 纳米复合薄膜，该方法易于在工业应用中推广。对复合材料的电磁干扰屏蔽效果（SE）进行了研究，结果表明，复合材料具有典型的吸收主导行为，能显著减少二次反射。具体来说，对于 35% （体积百分比）的 Bi2Se3/PVDF 纳米复合薄膜，厚度为 60 μm 的单层薄膜的 SEA 达到 20 dB，而 SER 则低于 5 dB。将薄膜折叠成八层后，SEA 增加到 50 dB，而 SER 仍低于 5 dB。这种方法为制造以吸收为主的电磁吸收（EMA）和 EMI 屏蔽材料提供了有效途径。

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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来源期刊

Journal of Materiomics Materials Science-Metals and Alloys

CiteScore

14.30

自引率

6.40%

发文量

331

审稿时长

37 days

期刊介绍： The Journal of Materiomics is a peer-reviewed open-access journal that aims to serve as a forum for the continuous dissemination of research within the field of materials science. It particularly emphasizes systematic studies on the relationships between composition, processing, structure, property, and performance of advanced materials. The journal is supported by the Chinese Ceramic Society and is indexed in SCIE and Scopus. It is commonly referred to as J Materiomics.