Dielectric and magnetic variance in NiCo2O4 spinels mediated by Zn-substitution for efficient data and energy storage

The presence of multiferroic behaviour in any material makes it exceptionally important for its possible significant role in technological developments. The combination of dielectric and magnetic orders in a single device has become an intriguing topic for material scientists in recent days. In this...

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Veröffentlicht in:	Applied physics. A, Materials science & processing Materials science & processing, 2021-07, Vol.127 (7), Article 492
Hauptverfasser:	Munir, Muhammad Mubashar, Khan, Ali Raza, Mustafa, Ghulam M., Abbas, S. Kumail, Raza, M. Akram, Atiq, Shahid, Naseem, Shahzad
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied physics Characterization and Evaluation of Materials Condensed Matter Physics Data storage Dielectric relaxation Dipole moments Energy dissipation Energy storage Grain size Machines Magnetic dipoles Magnetic properties Magnetic saturation Manufacturing Materials science Materials substitution Nanotechnology Nickel compounds Optical and Electronic Materials Physics Physics and Astronomy Processes Sol-gel processes Spinel Surfaces and Interfaces Thin Films Zinc
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container_title	Applied physics. A, Materials science & processing
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creator	Munir, Muhammad Mubashar Khan, Ali Raza Mustafa, Ghulam M. Abbas, S. Kumail Raza, M. Akram Atiq, Shahid Naseem, Shahzad
description	The presence of multiferroic behaviour in any material makes it exceptionally important for its possible significant role in technological developments. The combination of dielectric and magnetic orders in a single device has become an intriguing topic for material scientists in recent days. In this context, sol‒gel auto-combustion technique was utilized to synthesize Zn-substituted NiCo 2 O 4 to exploit its energy and data storage pursuits. Spinel-based cubic structure of metal cobaltites was affirmed using X-ray diffraction technique. Enhancement in grain size mediated by Zn substitution was visualized. Furthermore, elemental analysis confirmed the required stoichiometric contents in the samples. Koop’s theory, consistent with Maxwell–Wagner model, elaborated the decrease in dielectric constant by enhancing the frequency. An energy loss in dielectric relaxation was probed by measuring the loss tangent. In addition, the substitution of Zn also caused a decrease in resistive behaviour of the samples. Magnetic analysis revealed that when Ni was replaced with Zn, the saturation magnetization decreased which was attributed to the relative magnetic dipole moments of Zn and Ni.
doi_str_mv	10.1007/s00339-021-04640-4
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Koop’s theory, consistent with Maxwell–Wagner model, elaborated the decrease in dielectric constant by enhancing the frequency. An energy loss in dielectric relaxation was probed by measuring the loss tangent. In addition, the substitution of Zn also caused a decrease in resistive behaviour of the samples. 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subjects	Applied physics Characterization and Evaluation of Materials Condensed Matter Physics Data storage Dielectric relaxation Dipole moments Energy dissipation Energy storage Grain size Machines Magnetic dipoles Magnetic properties Magnetic saturation Manufacturing Materials science Materials substitution Nanotechnology Nickel compounds Optical and Electronic Materials Physics Physics and Astronomy Processes Sol-gel processes Spinel Surfaces and Interfaces Thin Films Zinc
title	Dielectric and magnetic variance in NiCo2O4 spinels mediated by Zn-substitution for efficient data and energy storage
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