Microstructural, dielectric, electrical, electromagnetic, and magnetic property enhancements in GdIG /TrIG/ Mn0.2Co0.3Zn0.5Fe2O4 ferrites composites for electronic devices application

IF 5.45 Q1 Physics and Astronomy Nano-Structures & Nano-Objects Pub Date : 2024-09-17 DOI:10.1016/j.nanoso.2024.101331
Anjori Sharma , Dipesh. , A.K. Srivastava , Sujal Raina
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引用次数: 0

Abstract

Gadolinium garnet ferrite (GdIG) and terbium garnet ferrite (TrIG), known for their favourable magnetic and dielectric characteristics, were combined with doped zinc spinel ferrite (GdIG)x-(TrIG)y/Mn0.2Co0.3Zn0.5Fe2O4(1-x-y) (at x=1 y=0, x=0 y=1, x=y=0.5, x=y=0.25, x=y=0) to achieve improved permittivity, permeability and magnetic properties with reduced magneto-dielectric losses. Our study details the synthesis process and the resulting enhancements in structural, magnetic, and dielectric properties of the prepared samples. Analysis of the X-ray diffraction (XRD) patterns confirmed the presence of a crystalline structure characterized by both cubic spinel and cubic garnet phases in the composites. The microstructures of the composites were analysed with field emission scanning electron microscopy (FESEM), revealing the variation in a grain size from 0.11 μm to 0.96 μm at x =y=0.5. A thorough link between the crystal structure and XRD spectra, transmission electron microscope (TEM), and selected area electron diffraction (SAED) patterns have all been investigated in order to enhance the characterisation of the samples. At 1KHz, the composites exhibit highest electrical resistivity values of 5.9×106 Ωm and 2.6×106 Ωm. With the incorporation of spinel ferrites in garnet ferrite composite (x=y=0.25) the highest value of dielectric constant (885.2) and low value of dielectric loss (0.07) at 100 KHz has been obtained. Permeability values, derived from permittivity data, showed an increase in real permeability values of from 1.4×1012 to 9.2×1017 for x=y=0.5 to x=y=0.25 composite. Vibrating sample magnetometer (VSM) further confirm that the composite x=y=0.25 has highest magnetic saturation (148.8 emu/g), coercivity (502 Oe) and microwave operating frequency (33.6 GHz). The observed high dielectric constant, low loss values, switching field distribution and good magnetic properties suggest the potential suitability of these samples for various electronic devices like: high frequency devices, antennas, switching devices and magnetic recording devices.

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用于电子设备的 GdIG /TrIG/ Mn0.2Co0.3Zn0.5Fe2O4 铁氧体复合材料的微观结构、介电、电学、电磁和磁学特性改进
钆石榴石铁氧体(GdIG)和铽石榴石铁氧体(TrIG)以其良好的磁性和介电特性而著称,它们与掺杂锌尖晶石铁氧体(GdIG)x-(TrIG)y/Mn0.2Co0.3Zn0.5Fe2O4(1-x-y)(在 x=1 y=0、x=0 y=1、x=y=0.5、x=y=0.25、x=y=0 时)相结合,从而获得更好的介电系数、磁导率和磁性能,并降低了磁介损耗。我们的研究详细介绍了合成过程以及所制备样品在结构、磁性和介电特性方面的改进。对 X 射线衍射 (XRD) 图样的分析证实,复合材料中存在以立方尖晶石和立方石榴石相为特征的晶体结构。用场发射扫描电子显微镜(FESEM)分析了复合材料的微观结构,发现在 x =y=0.5 时,晶粒大小从 0.11 微米到 0.96 微米不等。晶体结构与 XRD 光谱、透射电子显微镜(TEM)和选区电子衍射(SAED)图谱之间的联系都得到了深入研究,以提高样品的表征能力。在 1KHz 频率下,复合材料的电阻率最高,分别为 5.9×106 Ωm 和 2.6×106 Ωm。在石榴石铁氧体复合材料中加入尖晶石铁氧体(x=y=0.25)后,在 100 KHz 频率下获得了最高的介电常数值(885.2)和较低的介电损耗值(0.07)。根据介电常数数据得出的渗透率值显示,x=y=0.5 至 x=y=0.25 复合材料的实际渗透率值从 1.4×1012 增至 9.2×1017。振动样品磁力计(VSM)进一步证实,x=y=0.25 的复合材料具有最高的磁饱和度(148.8 emu/g)、矫顽力(502 Oe)和微波工作频率(33.6 GHz)。观察到的高介电常数、低损耗值、开关场分布和良好的磁特性表明,这些样品可能适用于各种电子设备,如:高频设备、天线、开关设备和磁记录设备。
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来源期刊
Nano-Structures & Nano-Objects
Nano-Structures & Nano-Objects Physics and Astronomy-Condensed Matter Physics
CiteScore
9.20
自引率
0.00%
发文量
60
审稿时长
22 days
期刊介绍: Nano-Structures & Nano-Objects is a new journal devoted to all aspects of the synthesis and the properties of this new flourishing domain. The journal is devoted to novel architectures at the nano-level with an emphasis on new synthesis and characterization methods. The journal is focused on the objects rather than on their applications. However, the research for new applications of original nano-structures & nano-objects in various fields such as nano-electronics, energy conversion, catalysis, drug delivery and nano-medicine is also welcome. The scope of Nano-Structures & Nano-Objects involves: -Metal and alloy nanoparticles with complex nanostructures such as shape control, core-shell and dumbells -Oxide nanoparticles and nanostructures, with complex oxide/metal, oxide/surface and oxide /organic interfaces -Inorganic semi-conducting nanoparticles (quantum dots) with an emphasis on new phases, structures, shapes and complexity -Nanostructures involving molecular inorganic species such as nanoparticles of coordination compounds, molecular magnets, spin transition nanoparticles etc. or organic nano-objects, in particular for molecular electronics -Nanostructured materials such as nano-MOFs and nano-zeolites -Hetero-junctions between molecules and nano-objects, between different nano-objects & nanostructures or between nano-objects & nanostructures and surfaces -Methods of characterization specific of the nano size or adapted for the nano size such as X-ray and neutron scattering, light scattering, NMR, Raman, Plasmonics, near field microscopies, various TEM and SEM techniques, magnetic studies, etc .
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