Rare Earth Substitution in Perovskite BiFeO3 Multiferroic: Comparative Study of Structural, Magnetic, and Optical Properties

IF 2.2 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Electronic Materials Pub Date : 2024-07-31 DOI:10.1007/s11664-024-11333-0
Sourabh Sharma, Ashok Kumar, O. P. Thakur, Priya Saharan
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Abstract

In this study, BiFeO3 (BFO) and Er3+-, La3+-, and Nd3+-substituted BFO were synthesized using Pechini’s modified sol–gel auto-combustion route. Comprehensive investigations were conducted on the structural, magnetic, and optical properties of the samples. X-ray diffraction and Rietveld refinement analysis provided insights into the crystal structure, which was found to be distorted rhombohedral for all the samples except for BEFO (Bi0.95Er0.05FeO3), which was orthorhombic. The crystallite size and strain were calculated by strain-size plots. Fourier transform infrared spectroscopy confirmed the crystallinity and characteristic FeO6 peaks of perovskites in all the samples. Microstructural investigations using field-emission scanning electron microscopy imaging revealed the morphological features and particle size distribution. The magnetization–hysteresis (M–H) loop demonstrated that the Ms and Mr values decreased after the incorporation of rare earth (RE) ions in the BFO lattice, while electron paramagnetic resonance analysis elucidated the magnetic interactions within the materials. In addition, UV direct reflectance spectroscopy coupled with Kubelka–Munk plot analysis facilitated the determination of band gap energy values, which were in the range of 2.11–2.22 eV. The integration of these diverse characterization techniques offers a holistic understanding of the structural, morphological, magnetic, and optical properties of BFO and its RE-substituted variants. This multifaceted approach not only enriches our knowledge of these materials but also paves the way for their diverse applications in sensors, spintronics, actuators, and photocatalysts for environmental remediation.

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包晶BiFeO3多铁性中的稀土替代:结构、磁性和光学特性的比较研究
本研究采用 Pechini 改良的溶胶-凝胶自燃烧路线合成了 BiFeO3(BFO)以及 Er3+-、La3+- 和 Nd3+-取代的 BFO。对样品的结构、磁性和光学特性进行了全面研究。X 射线衍射和里特维尔德细化分析有助于深入了解晶体结构,发现除 BEFO(Bi0.95Er0.05FeO3)为正菱形外,所有样品的晶体结构均为扭曲斜方体。结晶尺寸和应变是通过应变-尺寸图计算得出的。傅立叶变换红外光谱证实了所有样品的结晶度和包晶体的特征 FeO6 峰。利用场发射扫描电子显微镜成像进行的微观结构研究揭示了形态特征和粒度分布。磁化-磁滞(M-H)环表明,稀土(RE)离子加入 BFO 晶格后,Ms 值和 Mr 值降低,而电子顺磁共振分析则阐明了材料内部的磁性相互作用。此外,紫外直接反射光谱与 Kubelka-Munk plot 分析相结合,有助于确定带隙能值,其范围在 2.11-2.22 eV 之间。通过整合这些不同的表征技术,可以全面了解 BFO 及其 RE 取代变体的结构、形态、磁性和光学特性。这种多方面的方法不仅丰富了我们对这些材料的认识,还为它们在传感器、自旋电子学、致动器和用于环境修复的光催化剂等领域的多样化应用铺平了道路。
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来源期刊
Journal of Electronic Materials
Journal of Electronic Materials 工程技术-材料科学:综合
CiteScore
4.10
自引率
4.80%
发文量
693
审稿时长
3.8 months
期刊介绍: The Journal of Electronic Materials (JEM) reports monthly on the science and technology of electronic materials, while examining new applications for semiconductors, magnetic alloys, dielectrics, nanoscale materials, and photonic materials. The journal welcomes articles on methods for preparing and evaluating the chemical, physical, electronic, and optical properties of these materials. Specific areas of interest are materials for state-of-the-art transistors, nanotechnology, electronic packaging, detectors, emitters, metallization, superconductivity, and energy applications. Review papers on current topics enable individuals in the field of electronics to keep abreast of activities in areas peripheral to their own. JEM also selects papers from conferences such as the Electronic Materials Conference, the U.S. Workshop on the Physics and Chemistry of II-VI Materials, and the International Conference on Thermoelectrics. It benefits both specialists and non-specialists in the electronic materials field. A journal of The Minerals, Metals & Materials Society.
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