还原氧化石墨烯包覆片状羰基铁复合材料的制备及其优异的吸波性能。

Preparation of reduced graphene oxide coated flaky carbonyl iron composites and their excellent microwave absorption properties.

作者信息

He Lihua, Zhao Yan, Xing Liying, Liu Pinggui, Wang Zhiyong, Zhang Youwei, Wang Ying, Du Yunchen

机构信息

School of Materials Science and Engineering, Beihang University Beijing 100191 China

Beijing Institute of Aeronautical Materials Beijing 100095 China.

出版信息

RSC Adv. 2018 Jan 15;8(6):2971-2977. doi: 10.1039/c7ra12984j. eCollection 2018 Jan 12.

DOI:10.1039/c7ra12984j

PMID:35541211

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9077548/

Abstract

In this study, a novel absorber with a high performance microwave absorption property was prepared by innovatively coupling flaky carbonyl iron (FCI) and reduced graphene oxide (rGO) nanosheets into a homogenous composite. The rGO nanosheets are tightly coated on the surface of FCI, which gives typical dielectric dispersion behavior of complex permittivity and resultantly optimizes characteristic impedance matching. Meanwhile, the introduction of rGO as a dielectric lossy material endows FCI with improved dielectric loss ability and unfading magnetic loss ability. In the frequency range of 2.0-18.0 GHz, the rGO-coated FCI composite gives a minimum value of reflection loss with -65.4 dB at 5.2 GHz when the absorber thickness is 3.87 mm and always shows effective bandwidth under -20 dB when absorber thickness is from 1.5 mm to 5 mm. The contribution of typical dielectric dispersion behavior in rGO-coated FCI is demonstrated by a delta-function method to characteristic impedance matching and the excellent microwave absorbing performance.

摘要

在本研究中，通过创新性地将片状羰基铁（FCI）和还原氧化石墨烯（rGO）纳米片耦合形成均匀复合材料，制备了一种具有高性能微波吸收特性的新型吸收体。rGO纳米片紧密包覆在FCI表面，呈现出典型的复介电常数介电色散行为，从而优化了特征阻抗匹配。同时，引入rGO作为介电损耗材料，赋予FCI更高的介电损耗能力和稳定的磁损耗能力。在2.0 - 18.0 GHz频率范围内，当吸收体厚度为3.87 mm时，rGO包覆的FCI复合材料在5.2 GHz处的反射损耗最小值为-65.4 dB，并且当吸收体厚度在1.5 mm至5 mm之间时，在-20 dB以下始终具有有效带宽。通过δ函数法证明了rGO包覆的FCI中典型介电色散行为对特征阻抗匹配和优异微波吸收性能的贡献。

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还原氧化石墨烯包覆片状羰基铁复合材料的制备及其优异的吸波性能。

Preparation of reduced graphene oxide coated flaky carbonyl iron composites and their excellent microwave absorption properties.

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