不同温度下铋铁氧体纳米粒子的磁性和电性研究

IF 5.45 Q1 Physics and Astronomy Nano-Structures & Nano-Objects Pub Date : 2024-09-01 DOI:10.1016/j.nanoso.2024.101304
M.M. Rhaman , M.S. Miah , T. Ahmad
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引用次数: 0

摘要

多铁性铋铁氧体在磁性和电子设备中的潜在应用引起了人们的极大兴趣,但在不同温度下保持铋铁氧体纳米颗粒的高纯度对研究人员来说是一项艰巨的任务。我们用不同的退火温度制备了几种样品,并在不同的气氛中对其进行了研究,以确认其磁性和电性。通过溶胶-凝胶法合成了铁铋的异凝胶粉末。粉末在 500、600、700 和 800 °C 下退火形成纳米结构。X 射线衍射分析证实,退火后的样品为 R3c 空间对称的斜方体结构,随着退火温度的升高,晶体尺寸显著增大,晶格应变降低。FESEM 揭示了退火纳米粒子的微观结构特征,即随着退火温度的升高,球形形态转变为立方形态。振动样品磁力计研究是作为退火温度和表面温度(300、200、80 K)的函数进行的。检测到饱和磁化率随表面温度的变化不大,但随着退火温度的升高,饱和磁化率有相当大的下降。测量了在 500、600、700 和 800 ºC 下退火的铋铁氧体纳米粒子的带隙能,发现带隙能从 1.93 eV 显著上升到 2.06 eV。在 50、100、150、200、250、300 和 350 °C 的不同表面温度下,研究了电特性分析与频率的函数关系。电性能和磁性能都发生了显著变化。由于铋铁氧体在存储器件、自旋电子学、传感器、致动器以及光催化和光伏应用等多功能器件方面的应用前景广阔,因此对其进行了广泛的研究。
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Investigation of magnetic and electric properties of bismuth ferrite nanoparticles at different temperatures

Multiferroic bismuth ferrite shows a massive interest in its potential application in magnetic and electronic devices however maintaining high purity in bismuth ferrite nanoparticles at different temperatures is a difficult task for researchers. Several samples are prepared with different annealing temperatures and investigated in different atmospheres to recognize magnetic and electrical properties. A xerogel powder of bismuth ferrite is synthesized by the sol-gel route. The powder then anneals at 500, 600, 700, and 800 °C to form a nanostructure. X-ray diffraction analysis confirms that the annealed samples are in rhombohedral structure with R3c space symmetry and show a significant increase in crystal size and reduction in lattice strain with increasing annealing temperature. FESEM reveals the microstructural features of annealed nanoparticles which represent the conversion of spherical to cubic morphology with annealing temperature. Vibrating sample magnetometer investigations were conducted as a function of annealing and surface (300, 200, 80 K) temperatures. Insignificant variations of saturation magnetization are detected with surface temperature, but considerable degradation is observed with increasing annealing temperatures. The band-gap energy of bismuth ferrite nanoparticles annealed at 500, 600, 700, and 800 ºC is measured and significant escalation is observed from 1.93 to 2.06 eV. Electrical property analyses have been investigated as a function of frequency at different surface temperatures of 50, 100, 150, 200, 250, 300, and 350 °C. Remarkable variations are established in the electric and magnetic properties. Bismuth ferrite has been widely investigated due to its promising multifunctional device applications such as memory devices, spintronics, sensors, actuators, and photocatalytic and photovoltaic applications.

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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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