Structural, magnetic, electromagnetic, and hyperfine interactions of rare earth Ho3+ doped in mixed Co–Ni spinel ferrites

IF 2.5 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Applied Physics A Pub Date : 2025-05-15 DOI:10.1007/s00339-025-08576-x

Y. Slimani, M. A. Almessiere, A. Baykal, D. S. Klygach, S. V. Trukhanov, A. V. Trukhanov, A. Ul-Hamid

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引用次数: 0

Abstract

This study reports the hydrothermal synthesis of Ho³⁺ ion substituted Ni-Co (Ni_0.5Co_0.5Ho_xFe_2−xO₄ (x ≤ 0.05) nanospinel ferrites (Ho→NiCoFe) NSFs). Their structure, morphology, magnetic/microwave properties, and hyperfine interactions have been investigated via X-ray diffractometry (XRD), Scanning/Transmission electron microscopies (SEM/TEM), High resolution transmission electron microscopy (HR-TEM), Vibrating sample magnetometer (VSM), microwave absorption analyzer, and Moss spectroscopy techniques. The single-phase composition (purity of the products) and crystallinity of all products were verified by Energy X-ray Spectrophotometer (EDX) and XRD. The crystallite size (D) of the products is within the range of 14–24 nm. The magnetization curves were performed via a VSM device at ambient (300 K (RT)) and low (10 K), which indicate hard magnetic features with ferrimagnetic behavior for each of the as-prepared Ho→NiCoFe NSFs. The rise in Ho³⁺ substituting content causes a reduction in Ms, which is attributed to the deterioration of A-B exchange interactions and redistribution of cations among A and B sites. Contrarily, the coercivity increases with the rise in Ho³⁺ substituting content, which might be caused by the changes in cationic distribution at A and B sublattices, lattice distortions, reduction in crystallites/grains size, and rise in the number of grain boundaries. Other magnetic parameters were also determined, discussed, and correlated with structural and morphological changes. The Mössbauer spectra consisted of five magnetic sextets for all samples. The doublet formation was observed only x = 0.04 and 0.05. The doped ions substituted with Fe³⁺ ions at B site. Mössbauer spectroscopy was used for the calculation of cation distribution. Microwave features were examined within 12–33 GHz. S11-S21 parameters were used for periodicity scatterings of the actual/imaginary parts of permeability and permittivity. RL coefficient demonstrated intensive electromagnetic absorption with average level − 10…-15.9 dB that corresponded to the absorption of the natural media.

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稀土Ho3+在混合钴镍尖晶石铁氧体中的结构、磁、电磁和超精细相互作用

本研究报道了水热合成Ho3+离子取代Ni-Co （Ni0.5Co0.5HoxFe2−xO4 （x≤0.05)）纳米尖晶石铁氧体（Ho→NiCoFe） NSFs）。通过x射线衍射仪（XRD）、扫描/透射电子显微镜（SEM/TEM）、高分辨率透射电子显微镜（HR-TEM）、振动样品磁强计（VSM）、微波吸收分析仪和Moss光谱技术研究了它们的结构、形貌、磁/微波性能和超精细相互作用。通过能量x射线分光光度计（EDX）和x射线衍射仪（XRD）验证了所有产品的单相组成（产品纯度）和结晶度。产物的晶粒尺寸(D)在14 ~ 24 nm范围内。在室温（300 K）和低温（10 K）下，通过VSM装置测量磁化曲线，表明制备的Ho→NiCoFe nsf具有铁磁行为的硬磁特征。Ho3+取代含量的增加导致Ms的降低，这是由于a -B交换相互作用的恶化和阳离子在a和B位点之间的重新分配。相反，随着Ho3+取代量的增加，矫顽力增加，这可能是由于A和B亚晶格中阳离子分布的变化、晶格畸变、晶粒尺寸的减小和晶界数的增加所致。其他的磁性参数也被确定、讨论并与结构和形态变化相关联。Mössbauer光谱由所有样品的五个磁性六分体组成。双峰形成仅x = 0.04和0.05。掺杂离子在B位被Fe3+离子取代。利用Mössbauer光谱法计算阳离子分布。在12-33 GHz范围内检测微波特征。采用S11-S21参数对磁导率和介电常数的实虚部分进行周期性散射。RL系数显示出强烈的电磁吸收，平均水平为- 10…-15.9 dB，与自然介质的吸收相对应。

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来源期刊

Applied Physics A 工程技术-材料科学：综合

CiteScore

4.80

自引率

7.40%

发文量

964

审稿时长

38 days

期刊介绍： Applied Physics A publishes experimental and theoretical investigations in applied physics as regular articles, rapid communications, and invited papers. The distinguished 30-member Board of Editors reflects the interdisciplinary approach of the journal and ensures the highest quality of peer review.