Improving the Dielectric Properties of High Density Polyethylene by Incorporating Clay-Nanofiller

Haiba, Ahmed S.; Gouda, Osama E.; Mahmoud, Sohair F.; El-Gendy, Ahmed A.

doi:10.12928/telkomnika.v12i4.115

Cited by 12 publications

(2 citation statements)

References 5 publications

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“…which, Cp is matter capacitance, thickness (d in cm), A= (in cm 2 ). Loss of dielectric, ε˝ is planned by [17]:…”

Section: Methodsmentioning

confidence: 99%

Impact of Cold Plasma on Structural, Morphological, and Dielectrical Characteristics of Nanocomposites (PVA/PAA/Ag) Films

Obeid,

Rabee

2023

Preprint

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A nanocomposites of (PVA/PAA/Ag) was prepared by casting method in different concentration of the nanomaterial (Ag) represented by (0, 2, 4, 6, and 8( wt.%. The structural, morphological, and electrical characteristic were studied. The optical microscope (OM) proved the Ag NPs create a continuous network within the blend and the formation of pits and grooves, which indicates sufficient energy in the Ar plasma gas to extract this substance which noted at (PVA/PAA/8wt.% Ag) nanocomposites. The FTIR spectrum of the functional collections existing in polymer nanocomposite systems were established, and changes in shifting and transmittance were observed as a effect of the adding of Ag NPs. The (PVA/PAA/Ag) nanocomposites films have a homogenous and coherent surface morphology, as revealed by SEM. Argon plasma species on the (PVA/PAA) surface provide a progressive impression, which leads to a diverse morphology. Dielectric constant, dielectric loss, and alternating current (A.C) electrical conductivity of (PVA/PAA/Ag) nanocomposites are found to rise with rising concentrations of Ag NPs, while decreasing with increasing frequency. Plasma interaction with the molecular structure of these nanocomposites results in increased values for the dielectric constant, dielectric loss, and alternating current (A.C.) electrical conductivity following irradiation. Finally, the results demonstrated that cold plasma's impact on nanocomposites could produce materials with broad applications in nanodevices for cutting-edge electronics.

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“…which, Cp is matter capacitance, thickness (d in cm), A= (in cm 2 ). Loss of dielectric, ε˝ is planned by [17]:…”

Section: Methodsmentioning

confidence: 99%

Impact of Cold Plasma on Structural, Morphological, and Dielectrical Characteristics of Nanocomposites (PVA/PAA/Ag) Films

Obeid,

Rabee

2023

Preprint

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“…The dielectric characteristics of PVA/PEG/ In2O3 films tested at (f=100 Hz to 5 ×10 6 Hz) by LCR meter. The dielectric constant, έ is given by [12,13]:…”

Section: Methodsmentioning

confidence: 99%

Analysis of Dielectric Properties of PVA/PEG/In2O3 Nanostructures for Electronics Devices

Hayder¹,

Hashim²,

Habeeb³

et al. 2022

RCMA

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The dielectric characteristics of PVA/PEG/In2O3 nanostructures were tested to use in various electric nanodevices. The films of nanostructures of PVA/PEG/In2O3 were synthesized by casting solution technique. The dielectric characters of PVA/PEG/In2O3 nanostructures were determined. Results expressed that the dielectric parameters of PVA/PEG were rise with rise in the In2O3 NPs ratio. The performance of ε', ε" and σAC with frequency illustrated that the ε' and ε" reduced whereas the σAC rises with rise in frequency. The final results demonstrated the PVA/PEG/In2O3 nanostructures may be suitable in various electrical nanodevices.

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Solid electrolyte membranes with Al2O3 nanofiller for fully solid-state Li-ion cells

Wilson,

Augustin,

Abhilash

et al. 2023

Polym. Bull.

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Improving the Dielectric Properties of High Density Polyethylene by Incorporating Clay-Nanofiller

Abstract: Abstract

Cited by 12 publications

References 5 publications

Impact of Cold Plasma on Structural, Morphological, and Dielectrical Characteristics of Nanocomposites (PVA/PAA/Ag) Films

Impact of Cold Plasma on Structural, Morphological, and Dielectrical Characteristics of Nanocomposites (PVA/PAA/Ag) Films

Analysis of Dielectric Properties of PVA/PEG/In2O3 Nanostructures for Electronics Devices

Solid electrolyte membranes with Al2O3 nanofiller for fully solid-state Li-ion cells

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