Structural, Magnetic, and Electrical Properties of RE Doped Sr0.82RE0.18Fe12-xAlxO19 (RE = Gd, Pr, Sm) Compound

材料物理与化学进展(英文) Pub Date : 2019-09-18 DOI:10.4236/AMPC.2019.99014

D. L. Kunwar, D. Neupane, J. Dahal, S. Mishra

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引用次数: 8

Abstract

Among the family of ferrites, M-type hexaferrites has many industrial applications ranging from simple magnets to microwave devices. Improvement in magnetic and dielectric properties of ferrites is of continuous interest. In this present work details study is done to observe the effect of co-doping of rare-earth (RE3+: Pr3+, Sm3+, and Gd3+) and aluminum in Sr0.82RE0.18Fe12-xAlxO19 (x = 0.0, 0.5, 1.0, 1.5, 2.0). The adopted samples were synthesized via autocombustion technique. Detailed synthesis, structural, magnetic, and electrical measurements of samples were performed to understand structural-magnetic-electrical property relationship. The Al3+ substitution for Fe3+ brings in a significant enhancement in coercivity but reduces magnetization due to the magnetic dilution effect. Additional coercivity enhancement was possible with RE3+ doping without affecting the magnetization of samples. Among all RE3+ doped samples, Pr3+ doped samples showed the highest Curie temperature, (Tc ~ 465℃), while Gd3+ doped samples showed little variation in dielectric properties in GHz frequency range. This makes RE3+ doped samples as an ideal candidate for high-frequency microwave applications. Pr3+ with oblate charge distribution (negative Stevens constant) was observed to substitute well into the lattice consequently bringing in desired improvements in physical properties of Sr0.82RE0.18Fe12-xAlxO19 ferrite.

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稀土掺杂Sr0.82RE0.18Fe12-xAlxO19（RE=Gd，Pr，Sm）化合物的结构、磁性和电学性质

在铁氧体家族中，M型六铁氧体有许多工业应用，从简单的磁体到微波器件。铁氧体的磁性和介电性能的改善一直备受关注。本文详细研究了稀土（RE3+、Pr3+、Sm3+和Gd3+）和铝在Sr0.82RE0.18Fe12-xAlxO19（x=0.0、0.5、1.0、1.5、2.0）中的共掺杂效应。对样品进行了详细的合成、结构、磁性和电学测量，以了解结构-磁性-电学性质的关系。Al3+取代Fe3+显著提高了矫顽力，但由于磁稀释效应降低了磁化强度。在不影响样品磁化强度的情况下，RE3+掺杂可以增强矫顽力。在所有RE3+掺杂样品中，Pr3+掺杂样品的居里温度最高（Tc~465℃），而Gd3+掺杂样品的介电性能在GHz频率范围内变化不大。这使得RE3+掺杂的样品成为高频微波应用的理想候选者。观察到具有扁电荷分布（负史蒂文斯常数）的Pr3+很好地替代到晶格中，从而使Sr0.82RE0.18Fe12-xAlxO19铁氧体的物理性质得到了所需的改善。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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材料物理与化学进展(英文)

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