FeO nanoparticles decorated on a CuS platelet-based sphere: a popcorn chicken-like heterostructure as an ideal material against electromagnetic pollution.

Electromagnetic irradiation has caused environmental pollution and harmful effects on human health. The use of effective materials to attenuate electromagnetic energy is urgently required. In this study, FeO nanoparticles (NPs) decorated on a CuS platelet-based sphere (CuS/FeO) with popcorn chicken-like micromorphology were synthesized through a solvothermal deposition method. The effects of reaction temperature and quantity of FeO NPs on the heterostructures, morphologies and electromagnetic absorption (EA) properties of the heterostructures were investigated. CuS/FeO heterostructures exhibited remarkable enhancement in comparison with pure FeO NPs and the CuS platelet-based sphere. With the contribution from dielectric and magnetic losses, a CuS/FeO heterostructure-loaded composite could achieve a minimum reflection loss (RL) of -61.32 dB at 14.00 GHz and an effective EA bandwidth (≤-10 dB) of 4.15 GHz at a thickness of only 1.5 mm simultaneously. The current study indicates that the CuS/FeO heterostructures can potentially be applied as advanced electromagnetic absorbers.