Negative permittivity derived from inductive characteristic in the percolating Cu/EP metacomposites

Sun, Kai; Xin, Jiahao; Li, Yaping; Wang, Zhongyang; Hou, Qing; Li, Xiaofeng; Wu, Xinfeng; Fan, Runhua; Choy, Kwang Leong

doi:10.1016/j.jmst.2019.07.015

Cited by 62 publications

(17 citation statements)

References 52 publications

(55 reference statements)

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“…With the increase of graphene content, the connectivity of the graphene sheets increases, so it is inevitable to generate the leakage current especially when the graphene content is in the vicinity of percolation threshold. As is well known, the dielectric constant is related to the polarization of dipoles in materials 55. Absolutely, the leakage current is detrimental to the polarization of dipoles, so the permittivity in the GR/PVA composites with 18 wt% graphene got lessened.…”

Section: Resultsmentioning

confidence: 97%

“…According to the free electron gas theory, the positive and negative charges can separate from each other and generate a slight displacement; under the action of an alternating electric field, the electrons can give rise to a collective harmonic oscillation, which called plasma oscillation 55. It is indicated that the permittivity of conductive materials commonly presented negative values, when the test frequency is below the plasma oscillation frequency.…”

Section: Resultsmentioning

confidence: 99%

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Hydrosoluble Graphene/Polyvinyl Alcohol Membranous Composites with Negative Permittivity Behavior

Sun

Wang

Xin

et al. 2020

Macro Materials & Eng

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In this work, a hydrosoluble matrix is used for the first time to prepare flexible membranous composites, in order to improve their environmental friendliness and simplify the processing. Modified graphene (GR) sheets are distributed in polyvinyl alcohol (PVA) solution to achieve flexible GR/PVA metacomposites. As graphene content increases, an interconnected graphene network is eventually formed among the PVA matrix, and the resulting composites present a conductor‐like behavior. Interestingly, the Drude‐like negative permittivity is obtained in the composites with 20 wt% graphene, which is ascribed to the plasma oscillation. Meanwhile, the absolute values of negative permittivity decrease by several orders of magnitude due to the moderate electron density of graphene. It is demonstrated that the negative permittivity is dependent on the inductive character. This work provides a novel and versatile approach based on water‐soluble matrices to prepare flexible membranous metacomposites, which can be applied in wearable cloaking, thin‐film capacitors, and flexible and stretchable devices.

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Section: Resultsmentioning

confidence: 97%

Section: Resultsmentioning

confidence: 99%

Hydrosoluble Graphene/Polyvinyl Alcohol Membranous Composites with Negative Permittivity Behavior

Sun

Wang

Xin

et al. 2020

Macro Materials & Eng

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“…The absorbing mechanism for Ag@MWCNT hybrids is demonstrated in Figure . The possible reason for the enhanced absorbing performance is as follows: (1) MWCNTs belong to the dielectric loss absorbing material, while conductive Ag had resistance loss characteristics . The combination of MWCNTs with Ag microspheres would generate synergy effect to collectively attenuate the energy of EM waves.…”

Section: Resultsmentioning

confidence: 99%

“…(5) Electron migration and electronic hopping between the Ag−Ag particles, MWCNTs−Ag particles, and MWCNTs−MWCNTs would be generated, which was helpful to transform EM energy into heat energy or other forms. Based on the above analysis, the deposited conductive Ag on the PS microspheres could increase the interfacial polarization and resistance loss, 42 which was quite meaningful to improve the absorption properties.…”

Section: Analysis Of Dielectricmentioning

confidence: 87%

“…The possible reason for the enhanced absorbing performance is as follows: (1) MWCNTs belong to the dielectric loss absorbing material, while conductive Ag had resistance loss characteristics. 42 The combination of MWCNTs with Ag microspheres would generate synergy effect to collectively attenuate the energy of EM waves. (2) The deposition of Ag particles on the PS microspheres would generate much more heterogeneous interface to produce interfacial polarization, 40 which was vital to enhance the absorbing performance.…”

Section: Analysis Of Dielectricmentioning

confidence: 99%

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Conductive Ag Microspheres with Lychee-like Morphology on the Enhanced Microwave Absorption Properties of MWCNTs

Zhang

Wen

et al. 2019

J. Phys. Chem. C

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The conductive Ag microspheres were designed and prepared by the method of electroless plating via depositing Ag nanoparticles on polystyrene (PS) microspheres. The three-dimensional (3D) absorber hybrids of Ag@MWCNTs were fabricated by the combination of conductive Ag microspheres and multiwalled carbon nanotubes (MWCNTs). The morphology and structure of the absorbents were analyzed and characterized by X-ray diffraction, scanning electron microscopy, and transmission electron microscopy, which demonstrated that the Ag@MWCNT hybrids presented a 3D network structure, and the morphology of Ag microspheres was lychee-like. The influence of lychee-like Ag microspheres on the microwave absorption performance of MWCNTs was characterized by a vector network analyzer. The maximum reflection loss (RL) of Ag@MWCNTs was −39.09 dB at 8.10 GHz, of which the bandwidth of RL < −10 dB was 2.00 GHz (7.10–9.10 GHz). In contrast, the PS@MWCNT hybrids had a maximum RL of −22.34 dB at 9.30 GHz. These results indicated that the conductive Ag microspheres with lychee-like morphology were significant to improve the absorption properties of MWCNTs because of the increased conducting pathways and multiple reflection scattering interfaces.

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Tunable Negative Permittivity in Graphene/Poly(Vinylidene Fluoride) Composites with Low Percolation Threshold

et al. 2023

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Meta‐materials with fascinating dielectric behavior have drawn much attentions for their potential applications recently. Herein, percolating GR/PVDF composites consisting of GR sheets homogeneously dispersed in PVDF matrix are fabricated via hot‐pressing method in 20 Hz‐1 MHz frequency regions, of which simultaneously realizing negative permittivity with low percolation threshold. It’s demonstrated that negative permittivity of GR/PVDF composites are resulted from the low‐frequency plasma oscillation of free electrons, and a universal regulatory mechanism of Drude model is analyzed. At the same time, rapid formative 3D GR conductive networks contributed to the low percolation threshold (7.78wt%) of composites. Moreover, it is shown that electrical percolation occurred in samples as GR content exceeds percolation threshold, indicating a typical metal‐like behavior. In addition, the reactance is discussed according to the equivalent circuit analysis. This work constructed the meta‐composites with low filler content, which is benefit for practical applications in electromagnetic devices.This article is protected by copyright. All rights reserved.

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Negative permittivity derived from inductive characteristic in the percolating Cu/EP metacomposites

Cited by 62 publications

References 52 publications

Hydrosoluble Graphene/Polyvinyl Alcohol Membranous Composites with Negative Permittivity Behavior

Hydrosoluble Graphene/Polyvinyl Alcohol Membranous Composites with Negative Permittivity Behavior

Conductive Ag Microspheres with Lychee-like Morphology on the Enhanced Microwave Absorption Properties of MWCNTs

Tunable Negative Permittivity in Graphene/Poly(Vinylidene Fluoride) Composites with Low Percolation Threshold

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