Enhanced electromagnetic wave absorption of Fe₃O₄@MnO₂@Ni–Co/C composites derived from Prussian blue analogues

Abstract: 3D Fe3O4@MnO2@Ni–Co/C composites with excellent absorption (RLmin = −41.2 dB at 6.87 GHz) and a broad bandwidth (8.6–14.9 GHz).

“…Therefore, the effective use of electromagnetic waves is one of the key factors that dominate modern warfare. 7–9 Electromagnetic wave absorbing materials are of great significance for human protection and for improving the survivability and anti-strike capability of weapon systems. 10 Developing new electromagnetic wave absorption materials with a thin thickness, light weight, wide frequency band, and multiple functions to meet the development needs of electromagnetic wave pollution protection and military has become an important issue of increasing concern.…”

Facile synthesis of a rod-like Ni/TiO₂/C nanocomposite for enhanced electromagnetic wave absorption

“…Therefore, the effective use of electromagnetic waves is one of the key factors that dominate modern warfare. 7–9 Electromagnetic wave absorbing materials are of great significance for human protection and for improving the survivability and anti-strike capability of weapon systems. 10 Developing new electromagnetic wave absorption materials with a thin thickness, light weight, wide frequency band, and multiple functions to meet the development needs of electromagnetic wave pollution protection and military has become an important issue of increasing concern.…”

Facile synthesis of a rod-like Ni/TiO₂/C nanocomposite for enhanced electromagnetic wave absorption

Flower-like hierarchical Fe3O4-based heterostructured microspheres enabling superior electromagnetic wave absorption

A facile method to fabricate macropores and high-content pyridine N-doped carbon in hollow Co/C toward high-efficient microwave absorption