Efficient Electromagnetic Interference Shielding of PPA6@NiM/PDMS Composites with Porous and Asymmetric Gradient Structures

Abstract: In this work, magnetic PA6 microspheres (PPA6@ NiM) with porous structures were prepared using the solvent coprecipitation method and electroless nickel plating technology, and the stacked magnetic microspheres were encapsulated with polydimethylsiloxane (PDMS) to obtain PPA6@NiM/PDMS composites. The existence of the porous structure increases the attenuation path of the electromagnetic wave, and the presence of the nickel layer improves the magnetic loss of the composite material to the electromagnetic wave a… Show more

“…Yu et al [169] prepared PI(polyimide)/Ti 3 C 2 Tx Mxene/AgNW(silver nanowire) composite through electrostatic spinning and a hot-press approach. Wu et al [170] obtained PPA6@NiM(magnetic PA6 microspheres)/PDMS composite using the solvent coprecipitation method. Chu et al [171] prepared h-PANI/CNF/Mxene composite films with the alternating vacuum-assisted filtration method.…”

“…Guo et al [172] obtained ANF(aramid nanofiber)/AgNW/GN composite films through a vacuum filtration and hot-press approach. They found that the electromagnetic shielding material with a layered structure exhibited a strong absorbing ability, primarily attributed to the formation of a dense conductive network in the core layer of the material and excellent adhesion between the layers [42,[169][170][171][172]. Table 4 shows the recent research of layered-structured electromagnetic shielding materials.…”

Review of Polymer-Based Composites for Electromagnetic Shielding Application

“…Yu et al [169] prepared PI(polyimide)/Ti 3 C 2 Tx Mxene/AgNW(silver nanowire) composite through electrostatic spinning and a hot-press approach. Wu et al [170] obtained PPA6@NiM(magnetic PA6 microspheres)/PDMS composite using the solvent coprecipitation method. Chu et al [171] prepared h-PANI/CNF/Mxene composite films with the alternating vacuum-assisted filtration method.…”

“…Guo et al [172] obtained ANF(aramid nanofiber)/AgNW/GN composite films through a vacuum filtration and hot-press approach. They found that the electromagnetic shielding material with a layered structure exhibited a strong absorbing ability, primarily attributed to the formation of a dense conductive network in the core layer of the material and excellent adhesion between the layers [42,[169][170][171][172]. Table 4 shows the recent research of layered-structured electromagnetic shielding materials.…”

Review of Polymer-Based Composites for Electromagnetic Shielding Application

Multiple layered PVDF-CNTs foams with gradient structure and high electromagnetic shielding performance

Customizable gradient MXene/polyurethane modules for electromagnetic interference shielding with low reflection and thermal management