Enhancement of Magnetic and Dielectric Properties of Ni0.25Cu0.25Zn0.50Fe2O4 Magnetic Nanoparticles through Non-Thermal Microwave Plasma Treatment for High-Frequency and Energy Storage Applications

Munir, Muhammad Adnan; Naz, Muhammad Yasin; Shukrullah, Shazia; Ansar, Muhammad Tamoor; Farooq, Muhammad Umar; Irfan, Muhammad; Mursal, Salim Nasar Faraj; Legutko, Stanisław; Petrů, Jana; Pagáč, Marek

doi:10.3390/ma15196890

Cited by 15 publications

(1 citation statement)

References 67 publications

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“…Figure 7 declares that tan (δ) decreases as frequency rises and reaches around 0.1 for all nanocomposite films at 1000 Hz. This is due to the lack of the generated charge to orient along the frequency of electric field which reduces the electric oscillations in the higher frequency range [29,30]. Furthermore, the value of tan (δ) decreases as the Mn 0.5 Fe 1.5 Mg 0.5 Ni 0.5 O 4 nanoparticles doping ratio increases from 0 to 3 wt.%, and it increases at 5 wt.% at lower frequencies.…”

Section: Dielectric Propertiesmentioning

confidence: 99%

Structural, dielectric, and optical properties based on spinel ferrite (Mn_0.5Fe_1.5Mg_0.5Ni_0.5O₄) nanoparticles filler reinforced PVA for optoelectronic, laser CUT-OFF filters and energy storage devices

Rabiea,

Abouhaswa,

Abomostafa

2023

J. Phys. D: Appl. Phys.

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The fabrication of polymer nanocomposites with specialized traits is gaining popularity across the world due to novel added qualities. In this work we used a flash auto-combustion method to prepare Mn0.5Fe1.5Mg0.5Ni0.5O4 nanoparticles and the casting method to prepare Mn0.5Fe1.5Mg0.5Ni0.5O4/PVA nanocomposite polymer films with doping of nanoparticles various from 1–5 wt.%. The effect of Mn0.5Fe1.5Mg0.5Ni0.5O4 nanoparticles addition on the structural, optical, and dielectric characteristics of nanocomposite polymer films was analyzed. The structural properties were studied using x-ray diffraction pattern, high resolution transmission electron microscope, Fourier transform infrared, and field emission scanning electron microscope. The effects of nanoparticles doping on ac conductivity, electric modulus, impedance, and dielectric constant were investigated. It shows that Mn0.5Fe1.5Mg0.5Ni0.5O4/PVA nanocomposite films have higher values of permittivity and ac conductivity than PVA and exhibit lower values of dielectric loss, electric modulus, and impedance. The optical properties showed the indirect optical decreased from 4.8 to 4.4 eV. According to the experimental results, these nanocomposite polymer films show promise for laser CUT-OFF filters and energy storage devices.

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Section: Dielectric Propertiesmentioning

confidence: 99%

Structural, dielectric, and optical properties based on spinel ferrite (Mn_0.5Fe_1.5Mg_0.5Ni_0.5O₄) nanoparticles filler reinforced PVA for optoelectronic, laser CUT-OFF filters and energy storage devices

Rabiea,

Abouhaswa,

Abomostafa

2023

J. Phys. D: Appl. Phys.

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Structural characterization and enhanced magnetic and dielectric properties of Ce3+ substituted Co–Cr–Fe–O nano-ferrites synthesized using sol–gel method

Kadam,

More,

Gaikwad

et al. 2023

Appl. Phys. A

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Investigation effect of Cr3+ substituted on enhanced dielectric and magnetic properties of co-cu nano ferrites for high-density data storage applications

Rao,

Shanmukhi,

Mammo

et al. 2024

Appl. Phys. A

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Enhancement of Magnetic and Dielectric Properties of Ni0.25Cu0.25Zn0.50Fe2O4 Magnetic Nanoparticles through Non-Thermal Microwave Plasma Treatment for High-Frequency and Energy Storage Applications

Cited by 15 publications

References 67 publications

Structural, dielectric, and optical properties based on spinel ferrite (Mn_0.5Fe_1.5Mg_0.5Ni_0.5O₄) nanoparticles filler reinforced PVA for optoelectronic, laser CUT-OFF filters and energy storage devices

Structural, dielectric, and optical properties based on spinel ferrite (Mn_0.5Fe_1.5Mg_0.5Ni_0.5O₄) nanoparticles filler reinforced PVA for optoelectronic, laser CUT-OFF filters and energy storage devices

Structural characterization and enhanced magnetic and dielectric properties of Ce3+ substituted Co–Cr–Fe–O nano-ferrites synthesized using sol–gel method

Investigation effect of Cr3+ substituted on enhanced dielectric and magnetic properties of co-cu nano ferrites for high-density data storage applications

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Enhancement of Magnetic and Dielectric Properties of Ni0.25Cu0.25Zn0.50Fe2O4 Magnetic Nanoparticles through Non-Thermal Microwave Plasma Treatment for High-Frequency and Energy Storage Applications

Cited by 15 publications

References 67 publications

Structural, dielectric, and optical properties based on spinel ferrite (Mn0.5Fe1.5Mg0.5Ni0.5O4) nanoparticles filler reinforced PVA for optoelectronic, laser CUT-OFF filters and energy storage devices

Structural, dielectric, and optical properties based on spinel ferrite (Mn0.5Fe1.5Mg0.5Ni0.5O4) nanoparticles filler reinforced PVA for optoelectronic, laser CUT-OFF filters and energy storage devices

Structural characterization and enhanced magnetic and dielectric properties of Ce3+ substituted Co–Cr–Fe–O nano-ferrites synthesized using sol–gel method

Investigation effect of Cr3+ substituted on enhanced dielectric and magnetic properties of co-cu nano ferrites for high-density data storage applications

Contact Info

Product

Resources

About

Structural, dielectric, and optical properties based on spinel ferrite (Mn_0.5Fe_1.5Mg_0.5Ni_0.5O₄) nanoparticles filler reinforced PVA for optoelectronic, laser CUT-OFF filters and energy storage devices

Structural, dielectric, and optical properties based on spinel ferrite (Mn_0.5Fe_1.5Mg_0.5Ni_0.5O₄) nanoparticles filler reinforced PVA for optoelectronic, laser CUT-OFF filters and energy storage devices