期刊
ACS APPLIED NANO MATERIALS
卷 5, 期 12, 页码 18697-18707出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsanm.2c04460
关键词
microwave absorption; nanorods; MOFs; interface polarization; dielectric loss; impedance matching
资金
- Natural Science Foundation of Shandong Province
- [ZR2021QE164]
In this study, one-dimensional molybdenum carbide/cobalt nanorods were successfully synthesized via a MOFs plus MOFs strategy, leading to the formation of Mo2C/Co/C ternary composite nanorods through pyrolysis. The optimized structure of the material showed excellent microwave absorption performance.
Herein, we report the synthesis of one-dimensional (1D) molybdenum carbide/cobalt nanorods that consist of multiple components including Mo2C, Co, and C (Mo2C/Co/C) based on a MOFs plus MOFs strategy. The 1D Mo-metal-organic frame-works (MOFs) were first prepared through reflux condensation. Then, a zeolitic-imidazolate framework (ZIF-67) was used as the Co source to decorate 1D Mo-MOFs to form the Mo-MOFs/ZIF-67 precursor. Finally, 1D Mo2C/Co/C ternary composite nanorods were obtained through pyrolysis of Mo-MOFs/ZIF-67 under an Ar atmosphere. The combination of multiple components including dielectric Mo2C, C, and magnetic Co could not only optimize the impedance matching but also provide multiple channels to attenuate the electromagnetic (EM) waves including conductive loss, dielectric polarization, and magnetic resonance. Besides, the interface polarization formed by abundant heterointerfaces between Mo2C and Co/C was confirmed using a high-frequency structure simulator. The adding amount of Mo-MOFs and pyrolysis temperature were found to have a significant influence on the impedance matching and microwave absorption. Consequently, the optimized Mo2C/Co/C nanorods displayed the strongest reflection loss (RL) of -54.6 dB at 16.2 GHz corresponding to a thickness of 1.77 mm. The SRLmt (RL/matching thickness) was calculated to be 30.9, exceeding those of reported MOF derivates. What is more, the Mo2C/Co/C nanorods exhibited broad and tunable bandwidth covering from the whole X band (8.0-12.08 GHz) to the Ku band (12.56-18.0 GHz) by adjusting the amount of Mo-MOFs and pyrolysis temperature, revealing great potential for fields of microwave absorption.
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