Egg white-derived carbon/magnetic nanoparticles/water-soluble graphene oxide composite with homogeneous structure as an excellent electromagnetic wave absorber

Author(s): Pan Xu ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Hongru He ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Desheng Qi ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Linyu Fu ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Xigui Yue ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Xuanbo Zhu ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵

Publication date (Electronic): 2021

Journal: Journal of Materials Chemistry C

Publisher: Royal Society of Chemistry (RSC)

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Abstract

The egg white-derived carbon/magnetic nanoparticles/water-soluble graphene oxide composite absorber (EWC/MNPs/WSGO) has demonstrated great potential for application in the field of electromagnetic wave absorption.

Abstract

An egg white-derived carbon/magnetic nanoparticles/water-soluble graphene oxide composite absorber (EWC/MNPs/WSGO) was specially designed and synthesized via a facile sol–gel process with subsequent high-temperature pyrolysis. Magnetic nanoparticles (MNPs) were used to bring magnetic loss ability and improve the electromagnetic matching condition. Water-soluble graphene oxide (WSGO) was also used to adjust the absorption properties of the composite absorber. Moreover, egg white, which is liquid biomass, enables uniform dispersion of MNPs and WSGO within the absorber, allowing full use of the synergistic effect of each component. Benefiting from the excellent homogeneous structure, moderate dielectric loss and magnetic loss, strongly matched impedance, and multiple polarization are achieved. The as-synthesized optimal sample (EWC/MNPs/WSGO-1.0) exhibits superior electromagnetic wave absorption properties. The minimum reflection loss (RL _min) reaches −51.5 dB, and the effective absorption bandwidth (EAB, RL < −10 dB) is 3.4 GHz at a thickness of 1.6 mm. Compared with the reported bio-derived carbonaceous composite absorbers, EWC/MNPs/WSGO has great potential to be a lightweight and efficient electromagnetic wave absorption material in the frequency range of 2 to 18 GHz.

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Most cited references 51

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Structured Reduced Graphene Oxide/Polymer Composites for Ultra-Efficient Electromagnetic Interference Shielding

Ding-Xiang Yan, Bo Li, Robert Vajtai … (2015)

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Ferroferric oxide/multiwalled carbon nanotube vs polyaniline/ferroferric oxide/multiwalled carbon nanotube multiheterostructures for highly effective microwave absorption.

Jie Yuan, Jian Yang, Zhi-duo Hou … (2013)

Light-weight nanocomposites filled with carbon nanotubes (CNTs) are developed for their significant potentials in electromagnetic shielding and attenuation for wide applications in electronics, communication devices, and specific parts in aircrafts and vehicles. Specifically, the introduction of a second phase into/onto CNTs for achieving CNT-based heterostructures has been widely pursued due to the enhancement in either dielectric loss or magnetic loss. In this work, ferroferric oxide (Fe(3)O(4)) was selected as the phase in multiwalled carbon nanotube (MWCNT)-based composites for enhancing magnetic properties to obtain improved electromagnetic attenuation. A direct comparison between the two-phase heterostructures (Fe(3)O(4)/MWCNTs) and polyaniline (PANI) coated Fe(3)O(4)/MWCNTs, namely, three-phase heterostructures (PANI/Fe(3)O(4)/MWCNTs), was made to investigate the interface influences of Fe(3)O(4) and PANI on the complex permittivity and permeability separately. Compared to PANI/Fe(3)O(4)/MWCNTs, Fe(3)O(4)/MWCNTs exhibited enhanced magnetic properties coupled with increased dielectric properties. Interfaces between MWCNTs and heterostructures were found to play a role in the corresponding properties. The evaluation of microwave absorption of their wax composites was carried out, and the comparison between Fe(3)O(4)/MWCNTs and PANI/Fe(3)O(4)/MWCNTs with respect to highly efficient microwave absorption and effective absorption bandwidth was discussed.

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A novel hierarchically porous magnetic carbon derived from biomass for strong lightweight microwave absorption

Huanqin Zhao, Yan Cheng, Hualiang Lv … (2019)

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Author and article information

Contributors

Pan Xu: (View ORCID Profile)

Xigui Yue: (View ORCID Profile)

Xuanbo Zhu: (View ORCID Profile)

Journal

Journal ID (publisher-id): JMCCCX

Title: Journal of Materials Chemistry C

Abbreviated Title: J. Mater. Chem. C

Publisher: Royal Society of Chemistry (RSC)

ISSN (Print): 2050-7526

ISSN (Electronic): 2050-7534

Publication date Created: July 29 2021

Publication date (Electronic): 2021

Volume: 9

Issue: 29

Pages: 9292-9301

Affiliations

[1 ]Key Laboratory of High Performance Plastics (Jilin University)

[2 ]Ministry of Education. National & Local Joint Engineering Laboratory for Synthesis Technology of High Performance Polymer. College of Chemistry

[3 ]Jilin University

[4 ]Changchun

[5 ]P. R. China

Article

DOI: 10.1039/D1TC01794B

SO-VID: 957b21cf-5a30-4c56-bcbe-712c25755a6a

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