Jie Jiang , Yujing Zhang , Shiqi Zheng , Chuyang Liu , Yilin Zhang , Liang Yan , Rui Liu , Fan Wu , Dong-Hyun Kim , Feng Xu
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引用次数: 0
摘要
过渡金属磁性合金具有显著的磁损耗能力和独特的磁频特性,因此在电磁波吸收领域受到广泛关注。在此,我们报告了一种通过磁场辅助还原法合成的新型 Ni1-xCox 微链磁性吸波材料。在磁还原过程中,沉淀的 Ni1-xCox 颗粒可以连接和排列。由于镍改变了 Co 活性位点的电子结构,Ni1-xCox 微链中的颗粒尺寸随着 x 的增加而明显增大,同时,复合介电常数呈下降趋势,这有助于改善阻抗匹配和提高共振频率。连接在一起的 Ni1-xCox 微/纳米粒子不仅有利于降低导电损耗,还能增强粒子间接触界面上的极化损耗。因此,在厚度仅为 1.35 毫米的情况下,电磁波吸收性能得到了显著增强,最小反射损耗为 -21.0 dB,有效吸收带宽为 3.92 GHz。总之,这项工作展示了设计对齐双金属吸收体的策略,在改善微波吸收特性方面具有巨大潜力。
Chain-arranged Ni1-xCox micro/nano particles prepared via a magnetic field-assisted reduction for enhanced electromagnetic wave absorption
Transition metal magnetic alloys have garnered extensive interests in electromagnetic wave absorption due to the remarkable magnetic loss capacity and unique magnetism-frequency characteristics. Herein, we report a novel magnetic absorbent of Ni1-xCox micro chains that synthesized through a magnetic field-assisted reduction method. The precipitated Ni1-xCox particles could be connected and aligned during the magnetic reduction process. Due to the modified electronic structure of the Co active site by Ni, the particle size in the Ni1-xCox micro chains noticeably increases with increased x. Meanwhile, the complex dielectric constants exhibit a decreasing trend, which contributes to the improved impedance matching and higher resonance frequencies. The connected Ni1-xCox micro/nano particles not only benefit to the conductive loss, but also strengthened the polarization loss on the contacted interfaces among the particles. As a result, significantly enhanced electromagnetic wave absorption performance was obtained with the minimum reflection loss of −21.0 dB and the effective absorption bandwidth of 3.92 GHz at a thickness of only 1.35 mm. Overall, this work has demonstrated the strategy of designing aligned bimetallic absorbent, possessing great potentials in improving their microwave absorption properties.
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The Journal of Magnetism and Magnetic Materials provides an important forum for the disclosure and discussion of original contributions covering the whole spectrum of topics, from basic magnetism to the technology and applications of magnetic materials. The journal encourages greater interaction between the basic and applied sub-disciplines of magnetism with comprehensive review articles, in addition to full-length contributions. In addition, other categories of contributions are welcome, including Critical Focused issues, Current Perspectives and Outreach to the General Public.
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