Ultralight and Flexible Polyurethane/Silver Nanowire Nanocomposites with Unidirectional Pores for Highly Effective Electromagnetic Shielding

Zhihui Zeng; Mingji Chen; Yongmao Pei; Seyed Ismail Seyed Shahabadi; Boyang Che; Peiyu Wang; Xuehong Lu

doi:10.1021/acsami.7b07643

Ultralight and Flexible Polyurethane/Silver Nanowire Nanocomposites with Unidirectional Pores for Highly Effective Electromagnetic Shielding

Zhihui Zeng, Mingji Chen^*, Yongmao Pei, Seyed Ismail Seyed Shahabadi, Boyang Che, Peiyu Wang, Xuehong Lu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

172 Citations (Scopus)

Abstract

Flexible waterborne polyurethane (WPU)/silver nanowire (AgNW) nanocomposites with unidirectionally aligned micrometer-sized pores are fabricated using a facile freeze-drying process, and their dimensions, densities, and AgNW contents are easily controllable. The high-aspect-ratio AgNWs are well-dispersed in the nanocomposite cell walls, giving the nanocomposites good compression strength and excellent electrical conductivity even at very low densities. The large conductivity mismatch between the AgNWs and WPU also induces substantial interfacial polarization that benefits the absorption of electromagnetic (EM) waves, whereas the aligned cell walls promote multireflections of the waves in the porous architectures, further facilitating the absorption. The synergistic actions of the AgNWs, WPU, and unidirectionally aligned pores lead to ultrahigh EM shielding performance. The X-band shielding effectiveness (SE) of the nanocomposites is 64 and 20 dB at the densities of merely 45 and 8 mg/cm³, respectively, and ultrahigh surface specific SE of ∼1087 dB cm³/(g mm) is achieved with only 0.027 vol % AgNWs, demonstrating that they are promising ultralight, flexible, mechanically robust, high-performance EM shielding materials.

Original language	English
Pages (from-to)	32211-32219
Number of pages	9
Journal	ACS Applied Materials and Interfaces
Volume	9
Issue number	37
DOIs	https://doi.org/10.1021/acsami.7b07643
Publication status	Published - Sept 20 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2017 American Chemical Society.

ASJC Scopus Subject Areas

General Materials Science

Keywords

electromagnetic interference shielding
lightweight
nanocomposites
porous
silver nanowires

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10.1021/acsami.7b07643

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abstract = "Flexible waterborne polyurethane (WPU)/silver nanowire (AgNW) nanocomposites with unidirectionally aligned micrometer-sized pores are fabricated using a facile freeze-drying process, and their dimensions, densities, and AgNW contents are easily controllable. The high-aspect-ratio AgNWs are well-dispersed in the nanocomposite cell walls, giving the nanocomposites good compression strength and excellent electrical conductivity even at very low densities. The large conductivity mismatch between the AgNWs and WPU also induces substantial interfacial polarization that benefits the absorption of electromagnetic (EM) waves, whereas the aligned cell walls promote multireflections of the waves in the porous architectures, further facilitating the absorption. The synergistic actions of the AgNWs, WPU, and unidirectionally aligned pores lead to ultrahigh EM shielding performance. The X-band shielding effectiveness (SE) of the nanocomposites is 64 and 20 dB at the densities of merely 45 and 8 mg/cm3, respectively, and ultrahigh surface specific SE of ∼1087 dB cm3/(g mm) is achieved with only 0.027 vol % AgNWs, demonstrating that they are promising ultralight, flexible, mechanically robust, high-performance EM shielding materials.",

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author = "Zhihui Zeng and Mingji Chen and Yongmao Pei and {Seyed Shahabadi}, {Seyed Ismail} and Boyang Che and Peiyu Wang and Xuehong Lu",

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AU - Zeng, Zhihui

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AU - Seyed Shahabadi, Seyed Ismail

AU - Che, Boyang

AU - Wang, Peiyu

AU - Lu, Xuehong

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Ultralight and Flexible Polyurethane/Silver Nanowire Nanocomposites with Unidirectional Pores for Highly Effective Electromagnetic Shielding

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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