Comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (Ag co and fe) at 0.55 μm emission

The spectroscopic performance of Er doped glass at 0.55 μm emission contain different nanoparticles NPs have been comparatively evaluated. Glass containing 1.0 mol % of Er doped with different NPs (Ag, Co and Fe ) have been prepared using melt quenching technique. X-ray diffraction analysis reveal...

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Main Authors: Syariffah Nurathirah, S.Y., Rahim, S., Faizani, M.N., Nur Liyana, A.R., Siti Khalijah, M.Z., Puzi, A.B., Siti Maisarah, A., Nurulhuda, M.Y., Sulhadi, S.
Format: Conference or Workshop Item
Language:English
Published: 2021
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Online Access:http://eprints.unisza.edu.my/4849/1/FH03-PUSPA-21-56905.pdf
http://eprints.unisza.edu.my/4849/
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spelling my-unisza-ir.48492022-01-25T02:38:15Z http://eprints.unisza.edu.my/4849/ Comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (Ag co and fe) at 0.55 μm emission Syariffah Nurathirah, S.Y. Rahim, S. Faizani, M.N. Nur Liyana, A.R. Siti Khalijah, M.Z. Puzi, A.B. Siti Maisarah, A. Nurulhuda, M.Y. Sulhadi, S. Q Science (General) QD Chemistry The spectroscopic performance of Er doped glass at 0.55 μm emission contain different nanoparticles NPs have been comparatively evaluated. Glass containing 1.0 mol % of Er doped with different NPs (Ag, Co and Fe ) have been prepared using melt quenching technique. X-ray diffraction analysis reveals the all the prepared samples are amorphous. The UV-Vis absorption spectra of all glasses show several prominent peaks at 525 nm, 660 nm, 801nm, 982 nm and 959 nm due to transition from ground state I15/2 to different excited of H11/2, F9/2, I9/2, I11/2, and I13/2. The emission of Er at 0.55 μm for glass contain Ag NP shows significant enhancement about 3 folds up to 0.6 mol%. On the other hand, the emission of Er at 0.55 μm for glass containing Fe NPs and Co NPs intensely quench probably due to the energy-transfer from Er ion to NPs and magnetic contributions. 2021 Conference or Workshop Item PeerReviewed text en http://eprints.unisza.edu.my/4849/1/FH03-PUSPA-21-56905.pdf Syariffah Nurathirah, S.Y. and Rahim, S. and Faizani, M.N. and Nur Liyana, A.R. and Siti Khalijah, M.Z. and Puzi, A.B. and Siti Maisarah, A. and Nurulhuda, M.Y. and Sulhadi, S. (2021) Comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (Ag co and fe) at 0.55 μm emission. In: 7th International Conference on Solid State Science and Technology, 11-13 Nov 2019, Putrajaya.
institution Universiti Sultan Zainal Abidin
building UNISZA Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Sultan Zainal Abidin
content_source UNISZA Institutional Repository
url_provider https://eprints.unisza.edu.my/
language English
topic Q Science (General)
QD Chemistry
spellingShingle Q Science (General)
QD Chemistry
Syariffah Nurathirah, S.Y.
Rahim, S.
Faizani, M.N.
Nur Liyana, A.R.
Siti Khalijah, M.Z.
Puzi, A.B.
Siti Maisarah, A.
Nurulhuda, M.Y.
Sulhadi, S.
Comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (Ag co and fe) at 0.55 μm emission
description The spectroscopic performance of Er doped glass at 0.55 μm emission contain different nanoparticles NPs have been comparatively evaluated. Glass containing 1.0 mol % of Er doped with different NPs (Ag, Co and Fe ) have been prepared using melt quenching technique. X-ray diffraction analysis reveals the all the prepared samples are amorphous. The UV-Vis absorption spectra of all glasses show several prominent peaks at 525 nm, 660 nm, 801nm, 982 nm and 959 nm due to transition from ground state I15/2 to different excited of H11/2, F9/2, I9/2, I11/2, and I13/2. The emission of Er at 0.55 μm for glass contain Ag NP shows significant enhancement about 3 folds up to 0.6 mol%. On the other hand, the emission of Er at 0.55 μm for glass containing Fe NPs and Co NPs intensely quench probably due to the energy-transfer from Er ion to NPs and magnetic contributions.
format Conference or Workshop Item
author Syariffah Nurathirah, S.Y.
Rahim, S.
Faizani, M.N.
Nur Liyana, A.R.
Siti Khalijah, M.Z.
Puzi, A.B.
Siti Maisarah, A.
Nurulhuda, M.Y.
Sulhadi, S.
author_facet Syariffah Nurathirah, S.Y.
Rahim, S.
Faizani, M.N.
Nur Liyana, A.R.
Siti Khalijah, M.Z.
Puzi, A.B.
Siti Maisarah, A.
Nurulhuda, M.Y.
Sulhadi, S.
author_sort Syariffah Nurathirah, S.Y.
title Comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (Ag co and fe) at 0.55 μm emission
title_short Comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (Ag co and fe) at 0.55 μm emission
title_full Comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (Ag co and fe) at 0.55 μm emission
title_fullStr Comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (Ag co and fe) at 0.55 μm emission
title_full_unstemmed Comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (Ag co and fe) at 0.55 μm emission
title_sort comparative spectroscopic studies on luminescence performance of er3+ doped tellurite glass embedded with different nanoparticles (ag co and fe) at 0.55 μm emission
publishDate 2021
url http://eprints.unisza.edu.my/4849/1/FH03-PUSPA-21-56905.pdf
http://eprints.unisza.edu.my/4849/
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score 13.214268