Issue 36, 2019, Issue in Progress

rGO/Fe3O4 hybrid induced ultra-efficient EMI shielding performance of phenolic-based carbon foam

Abstract

To develop high-performance electromagnetic interference (EMI) shielding materials is crucial to solving the growing problem of electromagnetic pollution. Herein, we report a facile way to fabricate reduced graphene oxide/Fe3O4 (rGO/Fe3O4) hybrid-modified carbon foams for EMI shielding applications. The rGO/Fe3O4 was firstly synthesized via a co-precipitation method, and it was then mixed with phenol to prepare rGO/Fe3O4 hybrid-modified phenolic foam. The phenolic foam was further used as the precursor to fabricate rGO/Fe3O4 hybrid-modified carbon foam by carbonization. The fabricated rGO/Fe3O4 hybrid-modified carbon foam showed outstanding EMI shielding performance. The 1.5 wt% rGO/Fe3O4-modified carbon foam with a thickness of 3 mm exhibited an EMI shielding effectiveness (SE) of up to 63.5 dB at the X-band frequency range. In terms of specific EMI SE, these phenolic-based carbon foams with the rGO/Fe3O4 hybrid exhibited rather superior performance compared to the regular EMI shielding materials such as metals and conductive polymer composites (CPC). Furthermore, the rGO/Fe3O4 hybrid-modified carbon foam showed improved compressive mechanical properties compared with the virgin or rGO-modified carbon foam. Thus, the phenolic-based carbon foam modified with the rGO/Fe3O4 hybrid showed a promising future in many advanced applications where both EMI shielding and light weight are required.

Graphical abstract: rGO/Fe3O4 hybrid induced ultra-efficient EMI shielding performance of phenolic-based carbon foam

Article information

Article type
Paper
Submitted
05 Jun 2019
Accepted
27 Jun 2019
First published
02 Jul 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 20643-20651

rGO/Fe3O4 hybrid induced ultra-efficient EMI shielding performance of phenolic-based carbon foam

K. Yu, Y. Zeng, G. Wang, X. Luo, T. Li, J. Zhao, K. Qian and C. B. Park, RSC Adv., 2019, 9, 20643 DOI: 10.1039/C9RA04244J

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