Flexible, Stretchable, and Thin Films Based on Functionalized Carbon Nanofiber/Graphene Nanostructures for Electromagnetic Interference Shielding

Abstract: Flexible electromagnetic shielding materials (ESMs) are becoming progressively important to flexible and conformal electronic devices operating in civil, aerospace, and military industries. There is a legitimate need to fabricate flexible, thin, featherweight, and stretchable materials with higher electromagnetic interference shielding effectiveness (EMI SE) that can handle harsh environments. Graphene nanoplatelets (GNPs) are synthesized by microwave-supported exfoliation of graphite proceeded by water-bath s… Show more

“…With the arrival of the 5/6G era, high-performance electronic devices are in great demand. , However, ultralarge scaled integrated devices seriously generate increasing electromagnetic radiation, which easily causes malfunction of nearby devices and also directly threatens human health. − Due to the outstanding electrical conductivity, simplicity of processing, and abundance of interface groups, emerging two-dimensional transition-metal carbide/carbon-nitride materials (MXenes) have been used as high-performance components in advanced electromagnetic interference (EMI) material microstructures with various designable forms. − Particularly, aerogels have generated a great deal of attention in the field of 5/6G shielding due to their high internal porosity, which improves impedance matching, and significant internal scattering of pores, which effectively facilitates energy dissipation. − However, it is still a challenge to create mechanically stable three-dimensional MXene structures because of the constrained size of MXene nanosheets and weak intersheet connections.…”

Ti₃AlC₂ MXene Nanosheet/Ag Nanowire/Carbon Nanotube Three-Phase Aerogels for Electromagnetic Interference Shielding

“…With the arrival of the 5/6G era, high-performance electronic devices are in great demand. , However, ultralarge scaled integrated devices seriously generate increasing electromagnetic radiation, which easily causes malfunction of nearby devices and also directly threatens human health. − Due to the outstanding electrical conductivity, simplicity of processing, and abundance of interface groups, emerging two-dimensional transition-metal carbide/carbon-nitride materials (MXenes) have been used as high-performance components in advanced electromagnetic interference (EMI) material microstructures with various designable forms. − Particularly, aerogels have generated a great deal of attention in the field of 5/6G shielding due to their high internal porosity, which improves impedance matching, and significant internal scattering of pores, which effectively facilitates energy dissipation. − However, it is still a challenge to create mechanically stable three-dimensional MXene structures because of the constrained size of MXene nanosheets and weak intersheet connections.…”

Ti₃AlC₂ MXene Nanosheet/Ag Nanowire/Carbon Nanotube Three-Phase Aerogels for Electromagnetic Interference Shielding

Flexible and durable conductive nickel/graphene‐coated polyethylene terephthalate fabric for highly efficient electromagnetic shielding

Fe3O4/MWCNT/TiO2 nanocomposites as excellent microwave absorber material