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Lightweight porous materials for electromagnetic interference (EMI) shielding applications are reviewed.
Design and development of advanced materials for electromagnetic applications and bringing these materials into use is one of the most challenging tasks of materials engineering.
At present time, the practical application of fullerene materials continues to grow due to new applications in biology [6, 7], medicine [9], synthesis of nanocomposites with unique properties [15, 16], materials for electromagnetic shielding [17 20], and others.
Furthermore, due to their low conductivities Sample-1 and Sample-2 have been suggested as promising materials for electromagnetic radiation shielding applications for the high and low frequency regions, respectively.
Development of lightweight flexible materials for electromagnetic interference shielding has obtained increased attention in recent years particularly for clothing, textiles in-house use and technical applications especially in areas of aircraft, aerospace, automobiles and flexible electronics such as portable electronics and wearable devices.
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Present work shows a way to design and prepare lightweight and high performance materials for both electromagnetic wave absorption and wastewater treatment based on 3D graphene and Fe3O4 nanomaterials.
E-glass/epoxy composites and aramid/epoxy composites are suitable materials for EM (electromagnetic) transmission systems because they have low dielectric constants, particularly good for the construction of radomes.
Whenever we think of electrical energy generation, constructs formed with rigid and stiff materials, for example electromagnetic energy generators, are the predominant picture.
The present MWCNTs-coated nonwoven fabrics will be useful materials for high performance electromagnetic absorbers.
Designing new conducting materials with a promise for electromagnetic shielding applications attracted a wide spread interest in recent years.
The results suggest that the hierarchical structure is responsible for a low dielectric constant with excellent mechanical property of the Si3N4 porous ceramics, making this material a good candidate for electromagnetic radome application.
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