Study of the electrical and optical properties of Ge27Se58Pb15 chalcogenide glass

Study of the electrical and optical properties of Ge27Se58Pb15 chalcogenide glass

The present article reports electrical and optical properties of Ge27Se58Pb15 chalcogenide glass prepared through melt quenching technique. The dc electrical conductivity has been studied as a function of temperature and activation energy of conduction has been computed. The electrical study suggest...

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Bibliographic Details
Main Authors: Deepika, Hukum Singh, K. S. Rathore, N. S. Saxena
Format: Article
Language:English
Published: Taylor & Francis Group 2018-01-01
Series:Journal of Asian Ceramic Societies
Subjects:
Chalcogenide glasses
electrical
optical
activation energy
energy band gap
Online Access:http://dx.doi.org/10.1080/21870764.2018.1439612
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spelling doaj-741e2c5804cc4e3e8d38a777d6a92da72021-05-02T04:02:46ZengTaylor & Francis GroupJournal of Asian Ceramic Societies2187-07642018-01-0161303610.1080/21870764.2018.14396121439612Study of the electrical and optical properties of Ge27Se58Pb15 chalcogenide glassDeepika0Hukum Singh1K. S. Rathore2N. S. Saxena3The NorthCap UniversityThe NorthCap UniversityUniversity of RajasthanUniversity of RajasthanThe present article reports electrical and optical properties of Ge27Se58Pb15 chalcogenide glass prepared through melt quenching technique. The dc electrical conductivity has been studied as a function of temperature and activation energy of conduction has been computed. The electrical study suggest that conduction in the glassy sample takes place via variable range hopping and thermally assisted tunneling of charge carriers. Thermally activated conduction is observed in high temperature range (348–423 K) while in lower temperature range (298–348 K), conduction follows Mott’s VRH model. Besides this, optical constants, i.e. energy band gap, refractive index, etc. were also computed for thin film of Ge27Se58Pb15 glass and band gap value suggest that sample is a semiconductor.http://dx.doi.org/10.1080/21870764.2018.1439612Chalcogenide glasseselectricalopticalactivation energyenergy band gap
collection DOAJ
language English
format Article
sources DOAJ
author Deepika
Hukum Singh
K. S. Rathore
N. S. Saxena
spellingShingle Deepika
Hukum Singh
K. S. Rathore
N. S. Saxena
Study of the electrical and optical properties of Ge27Se58Pb15 chalcogenide glass
Journal of Asian Ceramic Societies
Chalcogenide glasses
electrical
optical
activation energy
energy band gap
author_facet Deepika
Hukum Singh
K. S. Rathore
N. S. Saxena
author_sort Deepika
title Study of the electrical and optical properties of Ge27Se58Pb15 chalcogenide glass
title_short Study of the electrical and optical properties of Ge27Se58Pb15 chalcogenide glass
title_full Study of the electrical and optical properties of Ge27Se58Pb15 chalcogenide glass
title_fullStr Study of the electrical and optical properties of Ge27Se58Pb15 chalcogenide glass
title_full_unstemmed Study of the electrical and optical properties of Ge27Se58Pb15 chalcogenide glass
title_sort study of the electrical and optical properties of ge27se58pb15 chalcogenide glass
publisher Taylor & Francis Group
series Journal of Asian Ceramic Societies
issn 2187-0764
publishDate 2018-01-01
description The present article reports electrical and optical properties of Ge27Se58Pb15 chalcogenide glass prepared through melt quenching technique. The dc electrical conductivity has been studied as a function of temperature and activation energy of conduction has been computed. The electrical study suggest that conduction in the glassy sample takes place via variable range hopping and thermally assisted tunneling of charge carriers. Thermally activated conduction is observed in high temperature range (348–423 K) while in lower temperature range (298–348 K), conduction follows Mott’s VRH model. Besides this, optical constants, i.e. energy band gap, refractive index, etc. were also computed for thin film of Ge27Se58Pb15 glass and band gap value suggest that sample is a semiconductor.
topic Chalcogenide glasses
electrical
optical
activation energy
energy band gap
url http://dx.doi.org/10.1080/21870764.2018.1439612
work_keys_str_mv AT deepika studyoftheelectricalandopticalpropertiesofge27se58pb15chalcogenideglass
AT hukumsingh studyoftheelectricalandopticalpropertiesofge27se58pb15chalcogenideglass
AT ksrathore studyoftheelectricalandopticalpropertiesofge27se58pb15chalcogenideglass
AT nssaxena studyoftheelectricalandopticalpropertiesofge27se58pb15chalcogenideglass
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