Journal
NANO RESEARCH
Volume -, Issue -, Pages -Publisher
TSINGHUA UNIV PRESS
DOI: 10.1007/s12274-022-5341-z
Keywords
microwave absorption; Fe2+ replacement; ultrabroad bandwidth; heterojunction; metal-organic framework (MOF)
Categories
Funding
- National Natural Science Foundation of China
- Sichuan Science and Technology Program
- [52102036]
- [2021JDRC0099]
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In this study, heterogeneous CoFe@N-doped porous carbon polyhedron composites were successfully synthesized, and the dielectric properties of the composites were enhanced by the replacement of metal ions, resulting in a synergistic effect of dielectric loss and magnetic loss. With its unique structural design and optimized impedance matching, the material exhibited excellent microwave absorption performance.
The synthesis of wide bandwidth, thin thickness, and high performance microwave absorbing materials has become a hot topic of current research. Metal-organic frameworks with heterojunctions and porous structures are considered as suitable candidates to meet these characteristics. Herein, heterogeneous CoFe@N-doped porous carbon polyhedron composites were successfully synthesized via Fe2+ to replace Co in zeolite imidazole frame-67. The dielectric properties of composites were enhanced by the replacement of Fe2+, and the synergistic effect of dielectric loss and magnetic loss was realized. The petal-like lamellar structure increases the travel of electromagnetic (EM) waves, and the formation of porous structures improves impedance matching. Specifically, a reflection loss of -67.30 dB was obtained at a thickness of 2.88 mm, and an ultrabroad wide effective absorption bandwidth of 8.40 GHz was obtained, covering most of the X-band (8-12 GHz) and the whole Ku-band (12-18 GHz). The radar cross section (RCS) reduction value can reach 29.4 dB.m(2), which means that the radar detector has a smaller probability of detecting targets. This work describes the unique advantages of metal ion replacement metal-organic frameworks derived materials in structural design, impedance matching, and performance adjustment, and provides a new reference for the field of electromagnetic wave absorption.
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