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Surendra Singh, Shailendra Kumar, Anil Maheshwari, Gunaram, Vijay Sharma, Piyush Gupta, Gaurav Sharma*
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- Assistant Professor, Professor, Assistant Professor, Assistant Professor, Assistant Professor, Professor, Associate Professor, Department of Electronics and Communication,, Department of Mechanical Engineering, Department of Mathematics, Department of Physics, Department of Physics, Department of Mechanical Engineering,, Department of Applied Physics, Uttar Pradesh, Uttar Pradesh, Uttar Pradesh, Rajasthan, Rajasthan, Uttar Pradesh, Uttar Pradesh, India, India, India, India, India, India, India
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Abstract
nThe current article uses the exploding wire technique to examine the magnetic, electrical, and dielectric properties of nanoscale zinc copper ferrite (ZnFe2O4). The SEM micrographs confirm the almost uniform size distribution of the nanoparticles. The Mossbauer spectrum of the nanoparticles was recorded with an externally applied magnetic field at room temperature. The ferromagnetic behavior of the ZFO sample was determined through VSM measurements at ambient temperature, and the M-H loop analysis yielded information on the magnitude of remanence, coercivity, and optimum magnetization. Our findings indicate that the ZFO sample is ideal for applications requiring switching magnetic properties between ferromagnetic and paramagnetic states. The dielectric properties, including the frequency-dependent dielectric parameters, were determined using an LCR meter, and the dielectric relaxation phenomenon was found to be governed by a technique similar to Arrhenius. Additionally, we plan to investigate the magnetodielectric response (MDR) of the ZnFe2O4 nanoparticles under different external magnetic field strengths at specified frequencies and temperatures. Overall, the facile and economical nano ferrite produced through a high-output synthesis technique is highly appealing for electronic devices requiring fine-tuning magnetodielectric features.
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Keywords: Nanoparticles; ferrites; Mossbauer; electric; magnetic.
n[if 424 equals=”Regular Issue”][This article belongs to Journal of Polymer and Composites(jopc)]
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Browse Figures
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References
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- Goswami, S. Singh and S. C. Katyal, J. Laser Opt. Photonics, 4, 158 (2017).
- R. Macdonald, Impedance Spectroscopy: Emphasizing Solid State Material and Systems (John Wiley & Sons, New York, 1987), ch.2 and ch.4.
- Uzma, Chin. Phys. B, 23, 5 (2014).
- M. Mohammad, K. A. Malins, P. Kurian and M. R. Anantharaman, Mater. Res. Bulle. 37, 753 (2002).
- Singh, A. Sahai, S. C. Katyal and N. Goswami, Materials Science-Poland, 36:4, 722-732 (2018).
- P. Padmasree, D. D. Kanchan and A. R. Kulkami, Solid State Ionics, 177, 475 (2006).
- Raymond, R. Font, J. Portelles, N. Su arez-Almodovar and J. M. Siqueiros, J. Appl. Phys. 99, 124101 (2006).
- R. Dwivedi, D. Kumar and O. Prakash, J. of Mat. Science, 36, 3657-3665 (2001).
- Singh, S.C. Katyal, N. Goswami, AIP conference proceedings 2009, 20022, pp. 1-4 (2018).
- Singh, S.C. Katyal, N. Goswami, AIP conference proceedings 2009, 20031, pp. 1-3 (2018).
- Singh, S.C. Katyal, N. Goswami, AIP conference proceedings 2115, 030128, pp. 1-4 (2019).
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Volume | ||
[if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] | ||
Received | December 30, 2023 | |
Accepted | February 3, 2024 | |
Published | April 1, 2024 at 5:20 pm |
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