Constrained Growth Strategy of Magnetic Nanoparticles to Enhance Broadband Microwave Absorption of FeCo/C Nanorod Composites

IF 6.3 2区材料科学 Q2 CHEMISTRY, PHYSICAL

Journal of Alloys and Compounds Pub Date : 2025-06-30 DOI:10.1016/j.jallcom.2025.181982

Du Jiawei, Liwen Zhang, Peng Tang, Xueying Zhao, Bo Wang, Guohua Wu, Xuyang Zhang, Nana Liu

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Abstract

The magnetic component is crucial for achieving a high absorption bandwidth within the microwave absorbing materials, while a high loading rate of magnetic particles often leads to agglomeration, which can degrade the absorption performance. The utilization of short-chain ligands generally enhances the constrained growth effect of carbon materials on magnetic particles in metal-organic framework (MOF) derived materials. In this study, a CoFe/C nanorod derived from a MOF composed of nitrilotriacetic acid and cobalt-iron metal ions has been successfully prepared. The MOF-derived method with constrained growth is employed to suppress the aggregation of alloy microparticles and maintaining a high magnetic particles. The optimized composite exhibits an effective absorption bandwidth (EAB) of 7.88 GHz that could cover the Ku-band. The excellent dispersion structure and high loading rates endowed by CoFe/C nanorods with constrained strategy, would contributed to the enhanced wideband microwave absorbing properties. These findings might provide new guidance for the fabrication of noval broadband microwave absorbing materials with high loading of magnetic nanoparticles.

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磁性纳米颗粒约束生长策略增强FeCo/C纳米棒复合材料的宽带微波吸收

磁性成分是微波吸收材料中实现高吸收带宽的关键，而磁性颗粒的高加载率往往会导致团聚，从而降低吸收性能。在金属有机骨架（MOF）衍生材料中，短链配体的使用通常增强了碳材料对磁性颗粒的约束生长效应。在本研究中，成功制备了一种由硝基三乙酸和钴铁金属离子组成的MOF的CoFe/C纳米棒。采用约束生长的mof衍生方法抑制了合金微粒的聚集，保持了高磁性微粒。优化后的复合材料有效吸收带宽（EAB）为7.88 GHz，可覆盖ku波段。具有约束策略的CoFe/C纳米棒具有良好的分散结构和较高的负载率，有助于增强其宽带微波吸收性能。这些研究结果可能为制备高负载磁性纳米粒子的新型宽带吸波材料提供新的指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Alloys and Compounds 工程技术-材料科学：综合

CiteScore

11.10

自引率

14.50%

发文量

5146

审稿时长

67 days

期刊介绍： The Journal of Alloys and Compounds is intended to serve as an international medium for the publication of work on solid materials comprising compounds as well as alloys. Its great strength lies in the diversity of discipline which it encompasses, drawing together results from materials science, solid-state chemistry and physics.