CNTs/biomass carbon composites derived from dictyostelium for electromagnetic wave absorption

“…The results established JE-700 as a promising EMA compared to biomass derived EMA materials ever reported. 37–40…”

“…The results established JE-700 as a promising EMA compared to biomass derived EMA materials ever reported. [37][38][39][40] In general, the EMW absorption features are correlated with the complex permittivity, complex permeability, and suitable matching between them. 41 Fig.…”

Hierarchical porous carbon frameworks derived from Juncus effusus biomass with robust electromagnetic wave absorption properties

“…The results established JE-700 as a promising EMA compared to biomass derived EMA materials ever reported. 37–40…”

“…The results established JE-700 as a promising EMA compared to biomass derived EMA materials ever reported. [37][38][39][40] In general, the EMW absorption features are correlated with the complex permittivity, complex permeability, and suitable matching between them. 41 Fig.…”

Hierarchical porous carbon frameworks derived from Juncus effusus biomass with robust electromagnetic wave absorption properties

“…Graphene and carbon nanotubes are expensive, which seriously hinders the development and application of high-performance wave-absorbing materials. 92 Therefore, low-cost raw materials are favored by researchers. An attractive alternative is biomass, which is abundant, inexpensive, and capable of forming a layered porous structure in the final carbon material, allowing structures to be obtained that cannot be achieved by the conventional synthesis of other materials.…”

“…Graphene and carbon nanotubes are expensive, which seriously hinders the development and application of high-performance wave-absorbing materials . Therefore, low-cost raw materials are favored by researchers.…”

Electromagnetic Absorption by Magnetic Oxide Nanomaterials: A Review

Multifunctional carbon nanotube arrays on kapok-derived carbon microtube composites for efficient electromagnetic wave absorption and Cu(II) removal