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A large-area AgNW-modified textile with high-performance electromagnetic interference shielding

Junchen Liu, Sen Lin, Kai Huang, Chao Jia, Qingmin Wang, Ziwei Li, Jianan Song, Zhenglian Liu, Haiyang Wang, Ming Lei, Hui Wu

2020npj Flexible Electronics100 citationsDOIOpen Access PDF

Abstract

Abstract Manufacturing a flexible, light, large-area, and high-efficiency electromagnetic shielding materials in a straightforward and cost-effective manner presently remains a significant challenge. In this work, we propose a conductive network design and verify its electromagnetic interference (EMI) shielding effectiveness (SE) by simulation. Using the structure and parameters obtained by simulation, we prepare a flexible EMI shielding material using silver nanowires (AgNWs)/polyvinyl butyral (PVB) ethanol solution and textile substructure via a facile immersing method. In the frequency range of 5–18 GHz, the AgNWs/PVB textile with 1.4 mm thickness achieves an EMI SE of 59 dB, which exceeds the requirements for commercial applications. Due to the low density of 56 mg/cm 3 , specific shielding effectiveness (SSE) of this material reaches 1053 dB m 3 /g. It is found that the AgNWs/PVB textile is more resistant to washing with water and oxidation than AgNWs textile without a PVB protector. As a result, the conductivity of AgNWs/PVB textile exhibits no change after washing with water and varies slightly after being kept in hot air. We find that a signal monitor is unable to detect a signal emitted by a mobile phone from a jacket lined with AgNWs/PVB textile. AgNWs/PVB textile with these properties can be mass-produced as high-efficiency EMI shielding material for commercial applications.

Topics & Concepts

Materials scienceElectromagnetic shieldingEMIElectromagnetic interferenceTextileComposite materialPolyvinyl butyralElectrical conductorStack (abstract data type)SIGNAL (programming language)Computer scienceTelecommunicationsProgramming languageElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface TechnologiesMetamaterials and Metasurfaces Applications
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