2021
DOI: 10.1039/d1nj04626h
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Multilayer polymeric nanocomposites for electromagnetic interference shielding: fabrication, mechanisms, and prospects

Abstract: Fabrication of multilayer EMI shield opens a creative avenue for designing and constructing flexible nanocomposite films simultaneously featuring excellent EMI shielding performance, fascinating heat removal ability, and robust mechanical properties.

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Cited by 49 publications
(56 citation statements)
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“…According to the literature, the absorption mechanism is thought to be mainly governed by two phenomena: (1) dipole polarization and (2) interfacial polarization between the metal–organic complexes and the matrix. However, the literature has shown that interfacial polarization relaxes significantly over the X-band frequency range; as such, ,, we believe that the contribution of the interfacial and dipole polarization mechanisms is negligible. Therefore, it can be said that, in the first layer of our multilayer samples, the PVDF/ZnNiFe layer attenuates and absorbs the electromagnetic energy due to hysteresis loss and magnetic domain resonance.…”
Section: Resultsmentioning
confidence: 75%
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“…According to the literature, the absorption mechanism is thought to be mainly governed by two phenomena: (1) dipole polarization and (2) interfacial polarization between the metal–organic complexes and the matrix. However, the literature has shown that interfacial polarization relaxes significantly over the X-band frequency range; as such, ,, we believe that the contribution of the interfacial and dipole polarization mechanisms is negligible. Therefore, it can be said that, in the first layer of our multilayer samples, the PVDF/ZnNiFe layer attenuates and absorbs the electromagnetic energy due to hysteresis loss and magnetic domain resonance.…”
Section: Resultsmentioning
confidence: 75%
“…Multilayer strategy and the abovementioned mechanisms have been proposed in many recent studies. 55 However, the A coe of our proposed nanocomposites supras all the existing works in the literature. We believe that the outstanding absorption performance of shield is a direct result of the excellent insulating and supermagnetic properties of ZnNiFe nanoparticles.…”
Section: Methodsmentioning
confidence: 71%
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“…In line with the demand for miniaturization [ 12 , 13 ] and optimization in the electronics industry, instead of conventional strategies, such as coating and surface modification of CNTs [ 14 , 15 ] or the use of hybrid additives [ 16 , 17 ], tuning specific intrinsic properties of CNTs in synthesis procedure seems to be a more effective and viable method to achieve the desired properties, meeting the requirements of advanced electrical applications. By altering synthesis parameters, such as temperature [ 18 ] to CNT substrates [ 19 ], and also by doping with different heteroatoms (nitrogen, boron, phosphorus, so forth), CNTs with different properties can be acquired.…”
Section: Introductionmentioning
confidence: 99%