Graphene Nanoplatelet Exoskeleton on Polyurethane Foam to Produce Flame‐Retardant, Piezoresistive, and Electromagnetic Interference Shielding Surfaces

Teklebrahan Gebrekrstos Weldemhret; Dong‐Woo Lee; Prabhakar M.N.; Aamir Iqbal; Chong Min Koo; Yong Tae Park; Jung Il Song

doi:10.1002/admi.202300461

Advanced Materials Interfaces (Nov 2023)

Graphene Nanoplatelet Exoskeleton on Polyurethane Foam to Produce Flame‐Retardant, Piezoresistive, and Electromagnetic Interference Shielding Surfaces

Teklebrahan Gebrekrstos Weldemhret,
Dong‐Woo Lee,
Prabhakar M.N.,
Aamir Iqbal,
Chong Min Koo,
Yong Tae Park,
Jung Il Song

Affiliations

Teklebrahan Gebrekrstos Weldemhret: Research Institute of Mechatronics Department of Mechanical Engineering Changwon National University 20 Changwondaehak‐ro, Uichang‐gu Changwon Gyeongsangnam‐do 51140 Republic of Korea
Dong‐Woo Lee: Research Institute of Mechatronics Department of Mechanical Engineering Changwon National University 20 Changwondaehak‐ro, Uichang‐gu Changwon Gyeongsangnam‐do 51140 Republic of Korea
Prabhakar M.N.: Research Institute of Mechatronics Department of Mechanical Engineering Changwon National University 20 Changwondaehak‐ro, Uichang‐gu Changwon Gyeongsangnam‐do 51140 Republic of Korea
Aamir Iqbal: School of Advanced Materials Science and Engineering Sungkyunkwan University Seobu‐ro 2066, Jangan‐gu Suwon‐si Gyeonggi‐do 16419 Republic of Korea
Chong Min Koo: School of Advanced Materials Science and Engineering Sungkyunkwan University Seobu‐ro 2066, Jangan‐gu Suwon‐si Gyeonggi‐do 16419 Republic of Korea
Yong Tae Park: Department of Mechanical Engineering Myongji University 116 Myongji‐ro, Cheoin‐gu Yongin Gyeonggi‐do 17058 Republic of Korea
Jung Il Song: Research Institute of Mechatronics Department of Mechanical Engineering Changwon National University 20 Changwondaehak‐ro, Uichang‐gu Changwon Gyeongsangnam‐do 51140 Republic of Korea

DOI: https://doi.org/10.1002/admi.202300461
Journal volume & issue: Vol. 10, no. 32
pp. n/a – n/a

Abstract

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Abstract Polyurethane foam (PUF)’s porous structure, light weight, flexibility, and low‐cost properties make it useful in various cutting‐edge technologies. However, time‐consuming, costly, and complicated surface modification methods severely hinder its commercial applications. Herein, an ultrafast, simple, and cost‐effective surface modification method based on the evaporation of a low boiling point solvent to prepare a multifunctional graphene nanoplatelet (GNP)‐decorated PUF (GNP@PUF) is proposed. Due to the passive heat barrier of GNP sheets, the resulting sponge exhibits excellent flame retardancy by reducing the critical fire retardancy metrics, that is, peak heat release rate, total heat release, and total smoke release by 72%, 50%, and 81%, respectively. In addition, GNP@PUF can function as a piezoresistive sensor and electromagnetic interference (EMI)‐shielding material. As a piezoresistive sensor, it exhibits a wide‐compressive pressure (2.4–112 kPa)/strain (5–70%) range and ultra‐fast response/relaxation time (48/35 ms), wide‐stretching strain (5–100%) range, and it can detect minute human motions by being attached to different parts of the human body. Meanwhile, the composite foam displays good absorption‐dominant EMI shielding performance (≈38 dB), possibly due to conductive dissipation and multiple reflections/scattering of EM waves inside the 3D conductive graphene network. This study provides a simple coating technique for developing multifunctional lightweight foam materials.

Published in Advanced Materials Interfaces

ISSN: 2196-7350 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Technology
Website: https://onlinelibrary.wiley.com/journal/21967350

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