FeCoCu/C纳米复合材料的合成、结构和电磁性能

D. Muratov, L. Kozhitov, I. Zaporotskova, A. Popkova, V. Tarala, Evgenij Yu. Korovin, Artem V. Zorin
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引用次数: 0

摘要

采用红外热解法合成了分布在FeCoCu/C金属-碳纳米复合材料碳基体中的FeCoCu三元纳米颗粒,其前驱体由“聚合物/乙酰乙酸铁/醋酸钴铜”型体系组成,该体系由组分联合溶解和溶剂去除组成。研究了合成温度对纳米复合材料的结构、组成和电磁性能的影响。XRD结果表明:Fe3С与CoCu固溶体中的纳米颗粒相互作用,形成了FeCoCu三元纳米颗粒。随着合成温度的升高,金属纳米颗粒的尺寸增大,这是由于基体重构导致的金属纳米颗粒的团聚和聚并。此外,根据合成温度和金属的含量比,可以形成具有可变组成的三元合金纳米颗粒。拉曼光谱结果表明,碳基的结晶度随合成温度的升高而升高。研究了复合材料在3 ~ 13 GHz频段的相对介电常数和磁导率的频率响应。结果表明,金属含量比的变化会显著增加介电损耗和磁损耗。前者的损耗是由于纳米复合碳基体形成复杂的纳米结构造成的,后者的损耗是由于纳米颗粒尺寸的增大和自然铁磁共振频率向低频区偏移造成的。根据相对介电常数和相对渗透率的频率响应实验数据,用标准方法计算了反射损耗。结果表明,通过改变前驱体中金属的含量比,可以控制前驱体的频率范围和电磁波的吸收(-20 ~ -52 dB)。与相似条件下合成的FeCo/C纳米复合材料相比,实验得到的纳米复合材料具有更好的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis, structure and electromagnetic properties of FeCoCu/C nanocomposites
FeCoCu ternary nanoparticles distributed and stabilized in the carbon matrix of FeCoCu/C metal-carbon nanocomposites have been synthesized using controlled IR pyrolysis of precursors consisting of the “polymer / iron acetylacetate / cobalt and copper acetates” type system obtained by joint dissolution of components followed by solvent removal. The effect of the synthesis temperature on the structure, composition and electromagnetic properties of the nanocomposites has been studied. By XRD was shown that the formation of the FeCoCu ternary nanoparticles occurs due to the interaction of Fe3С with the nanoparticles of the CoCu solid solution. An increase in the synthesis temperature leads to an increase in the size of the metal nanoparticles due to their agglomeration and coalescence as a result of matrix reconstruction. Furthermore, ternary alloy nanoparticles having a variable composition may form depending on the synthesis temperature and the content ratio of the metals. Raman spectroscopy has shown that the crystallinity of the carbon matrix of the nanocomposites increases with the synthesis temperature. The frequency responses of the relative permittivity and permeability of the nanocomposites have been studied at 3–13 GHz. It has been shown that a change in the content ratio of the metals noticeably increases both the dielectric and the magnetic losses. The former loss is caused by the formation of a complex nanostructure of the nanocomposite carbon matrix while the latter one originates from an increase in the size of the nanoparticles and a shift of the natural ferromagnetic resonance frequency to the low-frequency region. The reflection loss has been calculated using a standard method from the experimental data on the frequency responses of the relative permittivity and permeability. It has been shown that the frequency range and the absorption of electromagnetic waves (from –20 to –52 dB) can be controlled by varying the content ratio of the metals in the precursor. The nanocomposites obtained as a result of the experiment deliver better results in comparison with FeCo/C nanocomposites synthesized under similar conditions.
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