Synthesis and characterization of Cu/YIG nanoparticles- Terahertz material

“…On the other hand, specific materials with high electrical conductivity or magnetic permeability are used to enhance the absorption and attenuation of electromagnetic waves. Further research has revealed that high-performance electromagnetic wave absorbers are significantly influenced by microstructure, including chemical composition and geometry. − The hollow microstructures, for example, provide a longer path for electromagnetic waves to travel through the material. This extended path increases the chances of interaction between the waves and the material, leading to higher absorption and attenuation.…”

Structural, Magnetic, and Electrical Investigations of PVA/Ni Ferrite/(MoS₂)_x Nanocomposites

“…On the other hand, specific materials with high electrical conductivity or magnetic permeability are used to enhance the absorption and attenuation of electromagnetic waves. Further research has revealed that high-performance electromagnetic wave absorbers are significantly influenced by microstructure, including chemical composition and geometry. − The hollow microstructures, for example, provide a longer path for electromagnetic waves to travel through the material. This extended path increases the chances of interaction between the waves and the material, leading to higher absorption and attenuation.…”

Structural, Magnetic, and Electrical Investigations of PVA/Ni Ferrite/(MoS₂)_x Nanocomposites

Modeling to study the shape, dimensionality and crystal structure dependence of energy band gap in nanosized semiconductors

Synthesis of cotton-like FeCoNi-Nd(OH)3 nanoparticles via reactive mechanical milling: Investigating chemical properties for cellular signaling applications