EMI shielding study of PVC-PT-Ag/ZnS nanocomposites in microwave region

IF 4 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Hafiz Muhammad Fayzan Shakir , Aiman Fatima , Muhammad Zahid , Zulfiqar Ahmad Rehan , Sohad Abdulkaleg Alshareef , Mohamed El-Sharnouby
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Abstract

Chemical oxidative polymerization and hydrothermal methods were employed to synthesize polythiophene (PT) and silver-doped zinc sulfide (Ag/ZnS) nanoparticles for electromagnetic interference (EMI) shielding applications. Composite films based on PVC were fabricated by incorporating these nanoparticles, both Ag/ZnS and PT-Ag/ZnS. Initially, X-ray diffraction and zetasizer technology were utilized to analyze the crystal structure and particle size of these nanoparticles. Subsequently, the nanocomposite films were assessed for various properties, including electrical conductivity and transmittance in the near-infrared wavelength range of 200–800 nm, as well as their effectiveness in shielding electromagnetic interference in the microwave frequency range of 0.1–20 GHz. The aforementioned features were investigated using DC conductivity, vector network analysis, and NIR spectroscopy. It was discovered that both conductance and shielding effectiveness increased to 0.029 S/cm and 54 dB, respectively, as the nanoparticle density increased. At 20 wt% PT-Ag/ZnS, the maximum attenuation value within the 0.1–20 GHz frequency band reached 54 dB, with transmittance below 0.5 %.

Abstract Image

微波区 PVC-PT-Ag/ZnS 纳米复合材料的电磁干扰屏蔽研究
采用化学氧化聚合和水热法合成了用于电磁干扰(EMI)屏蔽的聚噻吩(PT)和掺银硫化锌(Ag/ZnS)纳米粒子。通过加入这些纳米颗粒(Ag/ZnS 和 PT-Ag/ZnS),制作出了基于 PVC 的复合薄膜。首先,利用 X 射线衍射和 Zetasizer 技术分析了这些纳米粒子的晶体结构和粒度。随后,对纳米复合薄膜的各种特性进行了评估,包括导电性和在 200-800 纳米近红外波长范围内的透射率,以及在 0.1-20 千兆赫微波频率范围内屏蔽电磁干扰的有效性。我们利用直流电导、矢量网络分析和近红外光谱对上述特性进行了研究。结果发现,随着纳米粒子密度的增加,电导率和屏蔽效果分别增加到 0.029 S/cm 和 54 dB。在 PT-Ag/ZnS 含量为 20 wt% 时,0.1-20 GHz 频段内的最大衰减值达到 54 dB,透射率低于 0.5%。
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来源期刊
Synthetic Metals
Synthetic Metals 工程技术-材料科学:综合
CiteScore
8.30
自引率
4.50%
发文量
189
审稿时长
33 days
期刊介绍: This journal is an international medium for the rapid publication of original research papers, short communications and subject reviews dealing with research on and applications of electronic polymers and electronic molecular materials including novel carbon architectures. These functional materials have the properties of metals, semiconductors or magnets and are distinguishable from elemental and alloy/binary metals, semiconductors and magnets.
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