Structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock composites

Structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock composites

In this work, polypyrrole and polythiophene conducting polymers (CPs) have been synthesized and doped with volcanic basalt rock (VBR) in order to improve their dielectric properties for technological applications. The structure and morphology of the composites with different VBR doping concentration...

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Main Authors: Bulgurcuoğlu Ayşe Evrim, Karabul Yaşar, Kiliç Mehmet, Özdemir Zeynep Güven, Erdönmez Seda, Misirlioğlu Banu Süngü, Okutan Mustafa, İçelli Orhan
Format: Article
Language:English
Published: Sciendo 2019-09-01
Series:Materials Science-Poland
Subjects:
composite materials
polypyrrole
polythiophene
volcanic basalt rock
dielectric spectroscopy
Online Access:https://doi.org/10.2478/msp-2019-0042
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spelling doaj-81247eab87ff4588ab640923726b11942021-09-06T19:22:35ZengSciendoMaterials Science-Poland2083-134X2019-09-0137335336310.2478/msp-2019-0042msp-2019-0042Structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock compositesBulgurcuoğlu Ayşe Evrim0Karabul Yaşar1Kiliç Mehmet2Özdemir Zeynep Güven3Erdönmez Seda4Misirlioğlu Banu Süngü5Okutan Mustafa6İçelli Orhan7Department of Physics, Yildiz Technical University, 34220İstanbul, TurkeyDepartment of Physics, Yildiz Technical University, 34220İstanbul, TurkeyDepartment of Physics, Yildiz Technical University, 34220İstanbul, TurkeyDepartment of Physics, Yildiz Technical University, 34220İstanbul, TurkeyDepartment of Physics, Yildiz Technical University, 34220İstanbul, TurkeyDepartment of Physics, Yildiz Technical University, 34220İstanbul, TurkeyDepartment of Physics, Yildiz Technical University, 34220İstanbul, TurkeyDepartment of Physics, Yildiz Technical University, 34220İstanbul, TurkeyIn this work, polypyrrole and polythiophene conducting polymers (CPs) have been synthesized and doped with volcanic basalt rock (VBR) in order to improve their dielectric properties for technological applications. The structure and morphology of the composites with different VBR doping concentrations were characterized by FT-IR and SEM analyses. The best charge storage ability was achieved for maximum VBR doping concentration (50.0 wt.%) for both CPs. Dielectric relaxation types of the composites were determined as non-Debye type due to non-zero absorption coefficient and observation of semicircles whose centers were below Z′ axis at the Nyquist plots. It was also ascertained that VBR doping makes the molecular orientation easier than for non-doped samples and reduced energy requirement of molecular orientation. In addition, AC conductivity was totally masked by DC conductivity for all samples at low frequency.https://doi.org/10.2478/msp-2019-0042composite materialspolypyrrolepolythiophenevolcanic basalt rockdielectric spectroscopy
collection DOAJ
language English
format Article
sources DOAJ
author Bulgurcuoğlu Ayşe Evrim
Karabul Yaşar
Kiliç Mehmet
Özdemir Zeynep Güven
Erdönmez Seda
Misirlioğlu Banu Süngü
Okutan Mustafa
İçelli Orhan
spellingShingle Bulgurcuoğlu Ayşe Evrim
Karabul Yaşar
Kiliç Mehmet
Özdemir Zeynep Güven
Erdönmez Seda
Misirlioğlu Banu Süngü
Okutan Mustafa
İçelli Orhan
Structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock composites
Materials Science-Poland
composite materials
polypyrrole
polythiophene
volcanic basalt rock
dielectric spectroscopy
author_facet Bulgurcuoğlu Ayşe Evrim
Karabul Yaşar
Kiliç Mehmet
Özdemir Zeynep Güven
Erdönmez Seda
Misirlioğlu Banu Süngü
Okutan Mustafa
İçelli Orhan
author_sort Bulgurcuoğlu Ayşe Evrim
title Structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock composites
title_short Structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock composites
title_full Structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock composites
title_fullStr Structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock composites
title_full_unstemmed Structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock composites
title_sort structural analysis and dielectric relaxation mechanism of conducting polymer/volcanic basalt rock composites
publisher Sciendo
series Materials Science-Poland
issn 2083-134X
publishDate 2019-09-01
description In this work, polypyrrole and polythiophene conducting polymers (CPs) have been synthesized and doped with volcanic basalt rock (VBR) in order to improve their dielectric properties for technological applications. The structure and morphology of the composites with different VBR doping concentrations were characterized by FT-IR and SEM analyses. The best charge storage ability was achieved for maximum VBR doping concentration (50.0 wt.%) for both CPs. Dielectric relaxation types of the composites were determined as non-Debye type due to non-zero absorption coefficient and observation of semicircles whose centers were below Z′ axis at the Nyquist plots. It was also ascertained that VBR doping makes the molecular orientation easier than for non-doped samples and reduced energy requirement of molecular orientation. In addition, AC conductivity was totally masked by DC conductivity for all samples at low frequency.
topic composite materials
polypyrrole
polythiophene
volcanic basalt rock
dielectric spectroscopy
url https://doi.org/10.2478/msp-2019-0042
work_keys_str_mv AT bulgurcuogluayseevrim structuralanalysisanddielectricrelaxationmechanismofconductingpolymervolcanicbasaltrockcomposites
AT karabulyasar structuralanalysisanddielectricrelaxationmechanismofconductingpolymervolcanicbasaltrockcomposites
AT kilicmehmet structuralanalysisanddielectricrelaxationmechanismofconductingpolymervolcanicbasaltrockcomposites
AT ozdemirzeynepguven structuralanalysisanddielectricrelaxationmechanismofconductingpolymervolcanicbasaltrockcomposites
AT erdonmezseda structuralanalysisanddielectricrelaxationmechanismofconductingpolymervolcanicbasaltrockcomposites
AT misirlioglubanusungu structuralanalysisanddielectricrelaxationmechanismofconductingpolymervolcanicbasaltrockcomposites
AT okutanmustafa structuralanalysisanddielectricrelaxationmechanismofconductingpolymervolcanicbasaltrockcomposites
AT icelliorhan structuralanalysisanddielectricrelaxationmechanismofconductingpolymervolcanicbasaltrockcomposites
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