Dielectric Properties, AC Conductivity, and Electric Modulus Analysis of Bulk Ethylcarbazole-Terphenyl

Electrical and dielectric properties for bulk ethylcarbazole-terphenyl (PEcbz-Ter) have been studied over frequency range 1 kHz–2 MHz and temperature range (R.T –120°C). The copolymer PEcbz-Ter was characterised by using X-ray diffraction. The frequency dependence of the dielectric constant (εr′) an...

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Published inAdvances in materials science and engineering Vol. 2020; no. 2020; pp. 1 - 8
Main Authors Abarkan, Mustapha, Bouachrine, Mohammed, Abdi, Farid, Naciri Bennani, Mohammed, Sadki, Hayat, Belghiti, Najat, Hadi, Nasr, Bouaamlat, Hussam, Lamcharfi, Taj-dine
Format Journal Article
LanguageEnglish
Published Cairo, Egypt Hindawi Publishing Corporation 2020
Hindawi
John Wiley & Sons, Inc
Wiley
Subjects
Bulk modulus
Complex permittivity
Copolymers
Dielectric loss
Dielectric properties
Electric fields
Electrical resistivity
Frequency ranges
Hopping conduction
Morphology
Permittivity
Polymers
Semiconductors
Temperature
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Abstract Electrical and dielectric properties for bulk ethylcarbazole-terphenyl (PEcbz-Ter) have been studied over frequency range 1 kHz–2 MHz and temperature range (R.T –120°C). The copolymer PEcbz-Ter was characterised by using X-ray diffraction. The frequency dependence of the dielectric constant (εr′) and dielectric loss (εr″) has been investigated using the complex permittivity. εr′ of the copolymer decreases with increasing frequency and increases with temperature. AC conductivity (σac) data were analysed by the universal power law. The behaviour of σac increases with increasing temperature and frequency. The change of the frequency exponent (s) with temperature was analysed in terms of different conduction mechanisms, and it was found that the correlated barrier-hopping model is the predominant conduction mechanism. The electric modulus was used to analyze the relaxation phenomenon in the material.
AbstractList Electrical and dielectric properties for bulk ethylcarbazole-terphenyl (PEcbz-Ter) have been studied over frequency range 1 kHz–2 MHz and temperature range (R.T –120°C). The copolymer PEcbz-Ter was characterised by using X-ray diffraction. The frequency dependence of the dielectric constant (εr′) and dielectric loss (εr″) has been investigated using the complex permittivity. εr′ of the copolymer decreases with increasing frequency and increases with temperature. AC conductivity (σac) data were analysed by the universal power law. The behaviour of σac increases with increasing temperature and frequency. The change of the frequency exponent (s) with temperature was analysed in terms of different conduction mechanisms, and it was found that the correlated barrier-hopping model is the predominant conduction mechanism. The electric modulus was used to analyze the relaxation phenomenon in the material.
Electrical and dielectric properties for bulk ethylcarbazole‐terphenyl (PEcbz‐Ter) have been studied over frequency range 1 kHz–2 MHz and temperature range (R.T –120°C). The copolymer PEcbz‐Ter was characterised by using X‐ray diffraction. The frequency dependence of the dielectric constant () and dielectric loss () has been investigated using the complex permittivity. of the copolymer decreases with increasing frequency and increases with temperature. AC conductivity ( σ ac ) data were analysed by the universal power law. The behaviour of σ ac increases with increasing temperature and frequency. The change of the frequency exponent ( s ) with temperature was analysed in terms of different conduction mechanisms, and it was found that the correlated barrier‐hopping model is the predominant conduction mechanism. The electric modulus was used to analyze the relaxation phenomenon in the material.
Author Abdi, Farid
Hadi, Nasr
Sadki, Hayat
Bouaamlat, Hussam
Bouachrine, Mohammed
Lamcharfi, Taj-dine
Belghiti, Najat
Abarkan, Mustapha
Naciri Bennani, Mohammed
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  fullname: Hadi, Nasr
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  fullname: Lamcharfi, Taj-dine
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ContentType Journal Article
Copyright Copyright © 2020 Hussam Bouaamlat et al.
Copyright © 2020 Hussam Bouaamlat et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. http://creativecommons.org/licenses/by/4.0
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Snippet Electrical and dielectric properties for bulk ethylcarbazole-terphenyl (PEcbz-Ter) have been studied over frequency range 1 kHz–2 MHz and temperature range...
Electrical and dielectric properties for bulk ethylcarbazole‐terphenyl (PEcbz‐Ter) have been studied over frequency range 1 kHz–2 MHz and temperature range...
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SubjectTerms Bulk modulus
Complex permittivity
Copolymers
Dielectric loss
Dielectric properties
Electric fields
Electrical resistivity
Frequency ranges
Hopping conduction
Morphology
Permittivity
Polymers
Semiconductors
Temperature
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Title Dielectric Properties, AC Conductivity, and Electric Modulus Analysis of Bulk Ethylcarbazole-Terphenyl
URI https://search.emarefa.net/detail/BIM-1129334
https://dx.doi.org/10.1155/2020/8689150
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Volume 2020
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