Improved magnetic and electrical properties of Bi1−xCaxFeO3 multiferroic nanomaterials

被引:0
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作者
G. M. Sravani
N. Murali
B. Chandra Sekhar
P. S. V. Shanmukhi
D. Kothandan
Tulu Wegayehu Mammo
D. Parajuli
Khalid Mujasam Batoo
Sajjad Hussain
K. Samatha
机构
[1] Andhra University,Department of Physics
[2] AUCE (A),Department of Engineering Physics
[3] Andhra University,Faculty of Allied Health Sciences, Chettinad Hospital and Research Institute
[4] Chettinad Academy of Research and Education,Department of Physics
[5] Vignan’s Institute of Engineering for Women (A),Department of Physics, School of Technology
[6] Aditya College of Engineering and Technology,Department of Physics, College of Natural and Computational Sciences
[7] The Apollo University,Research Center for Applied Science and Technology
[8] Aksum University,King Abdullah Institute For Nanotechnology
[9] Tribhuvan University,Hybrid Materials Center (HMC)
[10] King Saud University,Department of Nanotechnology and Advanced Materials Engineering
[11] Sejong University,undefined
[12] Sejong University,undefined
来源
Journal of Materials Science: Materials in Electronics | 2024年 / 35卷
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摘要
This paper investigates the structural, morphological, magnetic, and electrical characteristics of sol–gel auto-combustion synthesized Bi1−xCaxFe2O3 (x = 0.00, 0.05, 0.1, 0.15, 0.2, and 0.25) multiferroics. Characterization of the synthesized samples was conducted using X-ray diffraction (XRD), field emission scanning electron microscopy (FESEM), vibrating sample magnetometer (VSM), and electrical properties by Impedance Analyser. The materials exhibit a rhombohedral structure within the R3c space group. FESEM experiments revealed the nanocrystalline nature of the prepared materials. The FTIR spectra display Fe–O bond vibrations at approximately 450–465 and 560–582 cm−1. Magnetic measurements indicate an enhancement in saturation magnetization for doped samples, with Ca-doped BFO nanoparticles showing a saturation magnetization ranging from 1.45 emu/g to 2.49 emu/g at a 20kOe applied magnetic field. The observed increase in the diameters of the semicircles and their higher frequency shifting in the cole-cole plot across the 10 Hz–1 MHz frequency range suggests a rise in granularity and its limits.
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