Sea-urchin-like NiCo2S4 modified MXene hybrids with enhanced microwave absorption performance

The development of electromagnetic wave absorbing materials with lightweight and high absorption capacity is an effective way to solve electromagnetic wave pollution. Although the two-dimensional MXene material has become one of the most attractive electromagnetic wave absorbing materials due to its unique structure, the poor impedance matching makes it difficult to obtain both lightweight and efficient absorption capacity. Herein, few -layer MXene sheets and sea-urchin-like NiCo2S4 (NCS) hybrids were successfully synthesized by a simple elec-trostatic self-assembly method. MXene/NCS hybrids achieve good absorption performances. The maximum ab-sorption bandwidth is 5.6 GHz at a matching thickness of only 1.53 mm with a filling ratio of only 10 wt%. In addition, the excellent microwave absorption performance is attributed to the improved impedance matching of MXene and the synergistic effects of dielectric loss and interfacial polarization. This work provides new ideas for the design and synthesis of materials with lightweight and efficient electromagnetic wave absorption.

Automated summary

Developing lightweight and high absorption capacity electromagnetic wave absorbing materials is an effective solution to electromagnetic wave pollution. This study successfully synthesized MXene/NCS hybrid materials with good absorption performance, and provided new ideas for designing and synthesizing lightweight and efficient electromagnetic wave absorbing materials.