Structural, Spectroscopic, and Electrical Properties of (Ho, Mn)‐Codoped Bismuth Ferrites Synthesized Through Solid‐State Route

Soumya G. Nair, J. Satapathy
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Abstract

Bismuth ferrites (BiFeO3) are popularly known as BFOs and have potential application at room temperature in present‐day material science and ceramic industry due to their multiferroic and optical properties. Synthesis methods, temperature treatments, and doping are effective for tuning the structural and multiferroic properties of BFO, among which rare earth metals in Bi‐site and transition metals in Fe‐site have shown interesting results. This work explores the synthesis and characterizations of (holmium, manganese)‐codoped BFOs where solid‐state synthesis route and some electrical analyses are the novel studies attempted herein. X‐ray diffraction results explain the structural transition from rhombohedral to mixed‐phase ordering. Grain formation and the elemental concentrations are studied using scanning electron microscopy (SEM) and energy‐dispersive ray spectra (EDAX). Electrical analysis such as dielectric behavior with respect to frequency and temperature impedance analysis is studied in detail. Polarization versus electric field (P–E) hysteresis loop shows the ferroelectric nature of the codoped sample with lossy nature and reduced remnant polarization with doping. The dielectric anomalies with frequency and temperature are analyzed in detail, and antiferromagnetic transition around Neel temperature is discussed.
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固态法合成(Ho, Mn)共掺杂铋铁氧体的结构、光谱和电学性质
铋铁氧体(BiFeO3)通常被称为bfo,由于其多铁性和光学性质,在室温下在当今材料科学和陶瓷工业中具有潜在的应用。合成方法、温度处理和掺杂对调整BFO的结构和多铁性都是有效的,其中Bi - site中的稀土金属和Fe - site中的过渡金属表现出了有趣的结果。本文探讨了(钬锰)共掺杂bfo的合成和表征,其中固态合成路线和一些电分析是本文尝试的新研究。X射线衍射结果解释了从菱形有序到混合相有序的结构转变。利用扫描电子显微镜(SEM)和能谱(EDAX)研究了晶粒形成和元素浓度。详细研究了电学分析,如介电特性与频率和温度阻抗分析。极化与电场(P-E)磁滞回线显示了共掺杂样品的铁电性质,具有损耗性质,掺杂后残余极化减少。详细分析了介电异常与频率和温度的关系,讨论了Neel温度附近的反铁磁跃迁。
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