Graphene nanohybrids: Excellent electromagnetic properties for the absorbing and shielding of electromagnetic waves

Maosheng Cao; Chen Han; Xixi Wang; Min Zhang; Yanlan Zhang; Jincheng Shu; Huijing Yang; Xiaoyong Fang; Jie Yuan

doi:10.1039/c7tc05869a

Graphene nanohybrids: Excellent electromagnetic properties for the absorbing and shielding of electromagnetic waves

Maosheng Cao^*, Chen Han, Xixi Wang, Min Zhang, Yanlan Zhang, Jincheng Shu, Huijing Yang, Xiaoyong Fang, Jie Yuan

^*Corresponding author for this work

School of Material Science and Engineering

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

559 Citations (Scopus)

Abstract

Graphene has been long sought-after over the past few decades because of its multiple functions and broad applications in various fields, such as energy, information, medicine, military equipments, and aerospace. In particular, it has been significantly reported in electromagnetic wave absorbing and shielding fields, promoting it as the most cutting-edge topic. Herein, we systematically comb the structures and electromagnetic functions of graphene hybrids. We demonstrate the advances in the microwave response mechanism, including relaxation, charge transport, magnetic resonance, and eddy currents, as well as magnetic-dielectric synergistic effects. Furthermore, our review mainly focuses on graphene-dispersed systems, flexible graphene papers, graphene hybrids, and 3D graphene architectures.

Original language	English
Pages (from-to)	4586-4602
Number of pages	17
Journal	Journal of Materials Chemistry C
Volume	6
Issue number	17
DOIs	https://doi.org/10.1039/c7tc05869a
Publication status	Published - 2018

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abstract = "Graphene has been long sought-after over the past few decades because of its multiple functions and broad applications in various fields, such as energy, information, medicine, military equipments, and aerospace. In particular, it has been significantly reported in electromagnetic wave absorbing and shielding fields, promoting it as the most cutting-edge topic. Herein, we systematically comb the structures and electromagnetic functions of graphene hybrids. We demonstrate the advances in the microwave response mechanism, including relaxation, charge transport, magnetic resonance, and eddy currents, as well as magnetic-dielectric synergistic effects. Furthermore, our review mainly focuses on graphene-dispersed systems, flexible graphene papers, graphene hybrids, and 3D graphene architectures.",

author = "Maosheng Cao and Chen Han and Xixi Wang and Min Zhang and Yanlan Zhang and Jincheng Shu and Huijing Yang and Xiaoyong Fang and Jie Yuan",

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AU - Cao, Maosheng

AU - Han, Chen

AU - Wang, Xixi

AU - Zhang, Min

AU - Zhang, Yanlan

AU - Shu, Jincheng

AU - Yang, Huijing

AU - Fang, Xiaoyong

AU - Yuan, Jie

PY - 2018

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AB - Graphene has been long sought-after over the past few decades because of its multiple functions and broad applications in various fields, such as energy, information, medicine, military equipments, and aerospace. In particular, it has been significantly reported in electromagnetic wave absorbing and shielding fields, promoting it as the most cutting-edge topic. Herein, we systematically comb the structures and electromagnetic functions of graphene hybrids. We demonstrate the advances in the microwave response mechanism, including relaxation, charge transport, magnetic resonance, and eddy currents, as well as magnetic-dielectric synergistic effects. Furthermore, our review mainly focuses on graphene-dispersed systems, flexible graphene papers, graphene hybrids, and 3D graphene architectures.

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Graphene nanohybrids: Excellent electromagnetic properties for the absorbing and shielding of electromagnetic waves

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