Magnetic spinel ferrite nanocomposites engineered with MXene/reduced graphene oxide for electromagnetic interference shielding application

Kód výsledku v IS VaVaI

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Výsledek na webu

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DOI - Digital Object Identifier

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Jazyk výsledku

angličtina

Název v původním jazyce

Magnetic spinel ferrite nanocomposites engineered with MXene/reduced graphene oxide for electromagnetic interference shielding application

Popis výsledku v původním jazyce

A growth in electromagnetic radiation from the prompt developments of commercial electronic appliances has generated electromagnetic pollution. The electromagnetic radiations emitted from numerous electronic appliances such as mobile phones, tablet PCs, wireless local area networks, scientific electronics, military, and defense equipment, home appliances, medical diagnostic equipment, etc. are responsible for malfunctions in electronic appliances and also raised human health concerns. Electromagnetic interference (EMI) shielding is an important and proficient method to limit disruptive electromagnetic radiations. Consequently, to overcome ar diminish the impact of electromagnetic interference, good EMI shielding ar microwave absorption materials are essential which have an effective ability to block the electromagnetic waves, as reported by me also in my authored book &quot;Advanced Spinel Ferrite Nanocomposites for Electromagnetic Interference Shielding Applications&quot;, published in Elsevier publishing. The traditional electromagnetic shielding materials associated with single dielectric loss ar magnetic loss features have delivered an insufficient electromagnetic shielding performance owing to the question of impedance mismatching. One of the active methods to advance the performance of shielding material is to utilize spinel ferrite magnetic nanoparticles with reduced graphene oxide/MXene as impedance matching can be structured with the synergistic influence of magnetic and dielectric loss. An ideal EMI shielding material should hold strong absorption features, low density, lightweight, design flexibility, thermal stability, etc. Thus, the development of nanocomposite consisting of polymer-magnetic and dielectric inorganic material with high magnetic and dielectric losses could be a better choice.

Název v anglickém jazyce

Magnetic spinel ferrite nanocomposites engineered with MXene/reduced graphene oxide for electromagnetic interference shielding application

Popis výsledku anglicky

A growth in electromagnetic radiation from the prompt developments of commercial electronic appliances has generated electromagnetic pollution. The electromagnetic radiations emitted from numerous electronic appliances such as mobile phones, tablet PCs, wireless local area networks, scientific electronics, military, and defense equipment, home appliances, medical diagnostic equipment, etc. are responsible for malfunctions in electronic appliances and also raised human health concerns. Electromagnetic interference (EMI) shielding is an important and proficient method to limit disruptive electromagnetic radiations. Consequently, to overcome ar diminish the impact of electromagnetic interference, good EMI shielding ar microwave absorption materials are essential which have an effective ability to block the electromagnetic waves, as reported by me also in my authored book &quot;Advanced Spinel Ferrite Nanocomposites for Electromagnetic Interference Shielding Applications&quot;, published in Elsevier publishing. The traditional electromagnetic shielding materials associated with single dielectric loss ar magnetic loss features have delivered an insufficient electromagnetic shielding performance owing to the question of impedance mismatching. One of the active methods to advance the performance of shielding material is to utilize spinel ferrite magnetic nanoparticles with reduced graphene oxide/MXene as impedance matching can be structured with the synergistic influence of magnetic and dielectric loss. An ideal EMI shielding material should hold strong absorption features, low density, lightweight, design flexibility, thermal stability, etc. Thus, the development of nanocomposite consisting of polymer-magnetic and dielectric inorganic material with high magnetic and dielectric losses could be a better choice.

Druh

O - Ostatní výsledky

CEP obor

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OECD FORD obor

21001 - Nano-materials (production and properties)

Projekt

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Návaznosti

S - Specificky vyzkum na vysokych skolach

Rok uplatnění

2022

Kód důvěrnosti údajů

S - Úplné a pravdivé údaje o projektu nepodléhají ochraně podle zvláštních právních předpisů