A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles

Nanoparticles (NPs) size dependent enhancement of the infrared-to-visible frequency up-conversion (UC) and absorption coefficient in silver NPs embedded Er3+ doped tellurite glasses on pumping with the 976 nm radiation are investigated. Rate equations are derived by developing a comprehensive 4-leve...

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Main Authors: Ghoshal, Sib Krishna, Sahar, M. Rahim, Dousti, M. Reza, Arifin, Ramli, Rohani, M. Supar, Hamzah, Khaidzirh
Format: Article
Published: 2012
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Online Access:http://eprints.utm.my/id/eprint/46493/
http://dx.doi.org/10.4028/www.scientific.net/AMR.501.61
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Institution: Universiti Teknologi Malaysia
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spelling my.utm.464932017-09-12T04:02:38Z http://eprints.utm.my/id/eprint/46493/ A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles Ghoshal, Sib Krishna Sahar, M. Rahim Dousti, M. Reza Arifin, Ramli Rohani, M. Supar Hamzah, Khaidzirh TA Engineering (General). Civil engineering (General) Nanoparticles (NPs) size dependent enhancement of the infrared-to-visible frequency up-conversion (UC) and absorption coefficient in silver NPs embedded Er3+ doped tellurite glasses on pumping with the 976 nm radiation are investigated. Rate equations are derived by developing a comprehensive 4-level model in integrating the effects of quantum confinement and local field of silver NPs. Considering the spherical NPs size distribution as Gaussian, an analytical expression for the luminescence intensity and absorption coefficient are obtained for the first time. An enhancement in UC emission intensity of the green bands (2H11/2?4I15/2 and 4S3/2?4I15/2) and red band (4F9/2?4I15/2) emission of Er3+ ion at temperature 250 K and at optimized Er3+ concentration 1.0 mol% is observed up to few times in the presence of silver NPs. Furthermore, the green emission shows larger enhancement than the red emission. The observed of Er3+ luminescence is mainly attributed to the local field effects namely the surface plasmon resonance of silver NPs that causes an intensified electromagnetic field around NPs, resulting in enhanced optical transitions of Er3+ ions in the vicinity. The model is quite general and can be applied to other rare earth doped glasses containing metallic NPs. Our results on NPs size dependent emission intensity and absorption coefficient are in conformity with other findings. The present systematic study provides useful information for further development of UC lasers and sensors. 2012 Article PeerReviewed Ghoshal, Sib Krishna and Sahar, M. Rahim and Dousti, M. Reza and Arifin, Ramli and Rohani, M. Supar and Hamzah, Khaidzirh (2012) A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles. Advanced Materials Research, 501 . pp. 61-65. ISSN 1022-6680 http://dx.doi.org/10.4028/www.scientific.net/AMR.501.61
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TA Engineering (General). Civil engineering (General)
spellingShingle TA Engineering (General). Civil engineering (General)
Ghoshal, Sib Krishna
Sahar, M. Rahim
Dousti, M. Reza
Arifin, Ramli
Rohani, M. Supar
Hamzah, Khaidzirh
A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles
description Nanoparticles (NPs) size dependent enhancement of the infrared-to-visible frequency up-conversion (UC) and absorption coefficient in silver NPs embedded Er3+ doped tellurite glasses on pumping with the 976 nm radiation are investigated. Rate equations are derived by developing a comprehensive 4-level model in integrating the effects of quantum confinement and local field of silver NPs. Considering the spherical NPs size distribution as Gaussian, an analytical expression for the luminescence intensity and absorption coefficient are obtained for the first time. An enhancement in UC emission intensity of the green bands (2H11/2?4I15/2 and 4S3/2?4I15/2) and red band (4F9/2?4I15/2) emission of Er3+ ion at temperature 250 K and at optimized Er3+ concentration 1.0 mol% is observed up to few times in the presence of silver NPs. Furthermore, the green emission shows larger enhancement than the red emission. The observed of Er3+ luminescence is mainly attributed to the local field effects namely the surface plasmon resonance of silver NPs that causes an intensified electromagnetic field around NPs, resulting in enhanced optical transitions of Er3+ ions in the vicinity. The model is quite general and can be applied to other rare earth doped glasses containing metallic NPs. Our results on NPs size dependent emission intensity and absorption coefficient are in conformity with other findings. The present systematic study provides useful information for further development of UC lasers and sensors.
format Article
author Ghoshal, Sib Krishna
Sahar, M. Rahim
Dousti, M. Reza
Arifin, Ramli
Rohani, M. Supar
Hamzah, Khaidzirh
author_facet Ghoshal, Sib Krishna
Sahar, M. Rahim
Dousti, M. Reza
Arifin, Ramli
Rohani, M. Supar
Hamzah, Khaidzirh
author_sort Ghoshal, Sib Krishna
title A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles
title_short A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles
title_full A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles
title_fullStr A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles
title_full_unstemmed A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles
title_sort model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver nanoparticles
publishDate 2012
url http://eprints.utm.my/id/eprint/46493/
http://dx.doi.org/10.4028/www.scientific.net/AMR.501.61
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