Microwave-absorption properties of Fe(Mn)/ferrite nanocapsules

Han Z; Li D; Liu XG; Geng DY; Li J; Zhang ZD

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Microwave-absorption properties of Fe(Mn)/ferrite nanocapsules

机译：Fe（Mn）/铁氧体纳米胶囊的微波吸收特性

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Electromagnetic ( EM) wave absorption properties of the paraffin-Fe(Mn)/ferrite nanocapsule composite ( with 40 wt% nanocapsules) were investigated in the 2-18 GHz frequency range. The Fe(Mn)/ferrite nanocapsules synthesized by arc-discharging have a core-shell structure with cores 10-30 nm in diameter and shells about 5 nm in thickness. The reflection loss (RL) calculated from the measured permittivity and permeability was found to exceed -20 dB in the 13-15 GHz range for a thickness of about 1.75-1.95 mm. The optimal RL is -28.2 dB at about 14 GHz with 1.84mm thickness. RL values exceeding -10 dB were obtained for the absorber of 1.7mm thickness in the range 12.7-17.1 GHz, which almost covered the whole Ku-band (12.4-18 GHz). The excellent EM wave absorption properties of the Fe(Mn)/ferrite nanocapsules significantly depend on the core-shell microstructure and the match of dielectric and magnetic losses.

机译：研究了石蜡-Fe（Mn）/铁氧体纳米胶囊复合材料（含40 wt％纳米胶囊）在2-18 GHz频率范围内的电磁（EM）波吸收特性。通过电弧放电合成的Fe（Mn）/铁氧体纳米胶囊具有核-壳结构，其核的直径为10-30nm，壳的厚度为约5nm。发现在13-15 GHz范围内，对于大约1.75-1.95 mm的厚度，根据测得的介电常数和磁导率计算出的反射损耗（RL）超过-20 dB。最佳RL在1.84mm厚度，约14 GHz时为-28.2 dB。对于厚度为1.7mm的吸收器，在12.7-17.1 GHz范围内获得的RL值超过-10 dB，几乎覆盖了整个Ku频段（12.4-18 GHz）。 Fe（Mn）/铁氧体纳米胶囊的出色的EM波吸收特性显着取决于核-壳微结构以及介电和磁损耗的匹配。

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《Journal of Physics, D. Applied Physics: A Europhysics Journal》 |2009年第5期|共5页
作者
Han Z; Li D; Liu XG; Geng DY; Li J; Zhang ZD;
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正文语种 eng
中图分类应用物理学;
关键词
RAY PHOTOELECTRON-SPECTROSCOPY; ULTRAFINE IRON PARTICLES; NANOCOMPOSITES; NANOPARTICLES; RESONANCE; RANGE;

机译：射线光电子能谱;超细铁颗粒;纳米复合材料;纳米颗粒;共振;范围;

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1. Microwave-absorption properties of Fe(Mn)/ferrite nanocapsules [J] . Han Z, Li D, Liu XG, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2009,第5期

机译：Fe（Mn）/铁氧体纳米胶囊的微波吸收特性
2. Structural, Magnetic, and Microwave-Absorption Propertiesnof Nanocrystalline Ca(MnSn)n xn Fe12−2xn O19 Ferrites [J] . Ali-Sharbati, G.R. Amiri, R. Mousarezaei Journal of Electronic Materials . 2015,第2期

机译：纳米晶Ca（MnSn）n xn Fe12-2xn O19铁氧体的结构，磁性和微波吸收特性
3. Erratum: “Microwave-absorption properties of FeCo microspheres self-assembled by Al2O3-coated FeCo nanocapsules” [Appl. Phys. Lett. 92, 243110 (2008)] [J] . Liu X. G. Applied Physics Letters . 2012,第22期

机译：勘误表：“由Al2O3包覆的FeCo纳米胶囊自组装的FeCo微球的微波吸收特性”物理来吧92，243110（2008）]
4. Prepared and microwave-absorption properties investigation of c-C-Fe-Si/SiC coated Fe nanocapsules [C] . SHI Guimei, ZHANG Jinhu, LIAN Shu, International Conference on Multi-functional Materials and Structures . 2009

机译：C-C-Fe-Si / SiC涂层Fe纳米胶囊的制备和微波吸收性能研究
5. Fabrication of Mn-Zn ferrite with the aim of improvement of magnetic and mechanical properties [D] . Hirota, Ken 1989

机译：Mn-Zn铁氧体的制备以改善磁性能和机械性能为目的
6. Magnetostrictive Properties of Mn0.70Zn0.24Fe2.06O4 Ferrite [O] . Adam Bieńkowski, Roman Szewczyk 2018

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7. Impedance spectroscopy of nanocrystalline MgFe2O4 and MnFe2O4 ferrite ceramics: Effect of grain boundaries on the electrical properties [O] . Sekulić Dalibor L., Lazarević Zorica Z., Jovalekić Čedomir D., 2016

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8. Magnetic and Dielectric Properties of the Spinel Ferrite System Ni(0.65)Zn(0.35)Fe(2-x)Mn(x)O(4) [R] . Dionne, G. F., West, R. G. 1987

机译：尖晶石铁氧体系Ni（0.65）Zn（0.35）Fe（2-x）mn（x）O（4）的磁性和介电性能

Microwave-absorption properties of Fe(Mn)/ferrite nanocapsules

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