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Core-shell designed high entropy alloy CoNiFeCuV-C nanoparticles for enhanced microwave absorption

2024; American Institute of Physics; Volume: 124; Issue: 12 Linguagem: Inglês

10.1063/5.0201983

1520-8842

Sibt ul Hassan, Yang Yang, Tauqeer Haider Qamar, Mohsin Shah, Imran Khan, Lizhen Hou, Shiliang Wang,

Metamaterials and Metasurfaces Applications

The widespread interest in high entropy alloy nanostructures stems from their potential utilization in a variety of technological and scientific fields. This study presents an innovative approach employing a one-step metal organic chemical vapor deposition to synthesize quinary high entropy alloy (CoNiFeCuV-C) core-shell nanoparticles designed for microwave absorption applications. Superior microwave absorption performance is attained through the optimization of conduction loss via thermal treatment, coupled with the interfacial polarization across the interfaces between CoNiFeCuV cores and C shell. The paraffin composite filled with an optimal 20% content of CoNiFeCuV-C core-shell nanoparticles demonstrates a minimal reflection loss (RLmin) of −51.8 dB at 13.76 GHz, achieving this performance with a thickness of 2.2 mm. Moreover, the absorbing bandwidth spans 7.44 GHz at a thickness of 2.4 mm. The outstanding accomplishments underscore the potential of utilizing CoNiFeCuV-C core-shell nanoparticles as a promising choice for lightweight, effective microwave absorber material.