Visible quantum cutting in Tb super(3+) doped BaGdF sub(5) phosphor for plasma display panel

Visible quantum cutting (QC) via down-conversion and enhancement in photoluminescence properties has been observed in terbium (Tb super(3+)) doped BaGdF sub(5) phosphor. This phosphor was synthesized by varying molar concentration of Tb super(3+) ions via co-precipitation method. The prepared phosph...

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Veröffentlicht in:	Journal of materials science. Materials in electronics 2017-02, Vol.28 (3), p.2407-2414
Hauptverfasser:	Jaiswal, SR, Sawala, N S, Nagpure, P A, Bhatkar, V B, Omanwar, S K
Format:	Artikel
Sprache:	eng
Schlagworte:	Coprecipitation Cutting Electronics Excitation Panels Phosphors Photoluminescence Synthesis (chemistry)
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creator	Jaiswal, SR Sawala, N S Nagpure, P A Bhatkar, V B Omanwar, S K
description	Visible quantum cutting (QC) via down-conversion and enhancement in photoluminescence properties has been observed in terbium (Tb super(3+)) doped BaGdF sub(5) phosphor. This phosphor was synthesized by varying molar concentration of Tb super(3+) ions via co-precipitation method. The prepared phosphor was characterized through X-ray diffraction technique. The photoluminescence spectra of BaGdF sub(5):Tb super(3+) phosphor measured under vacuum ultraviolet or UV excitation. The QC process was observed in prepared phosphor due to cross relaxation and direct energy transfer between Tb super(3+) and Tb super(3+) or Tb super(3+) and Gd super(3+) ions depending on the excitation wavelength. The maximum quantum efficiencies were found to be 162, 174 and 177 %, under the excitation of 172, 187 and 240 nm respectively. The green emission of 544 nm was observed at excitation of 172 and 187 nm. Hence this phosphor may be prime candidate for application in plasma display panels and mercury free fluorescent lamps.
doi_str_mv	10.1007/s10854-016-5811-8
format	Article
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This phosphor was synthesized by varying molar concentration of Tb super(3+) ions via co-precipitation method. The prepared phosphor was characterized through X-ray diffraction technique. The photoluminescence spectra of BaGdF sub(5):Tb super(3+) phosphor measured under vacuum ultraviolet or UV excitation. The QC process was observed in prepared phosphor due to cross relaxation and direct energy transfer between Tb super(3+) and Tb super(3+) or Tb super(3+) and Gd super(3+) ions depending on the excitation wavelength. The maximum quantum efficiencies were found to be 162, 174 and 177 %, under the excitation of 172, 187 and 240 nm respectively. The green emission of 544 nm was observed at excitation of 172 and 187 nm. 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subjects	Coprecipitation Cutting Electronics Excitation Panels Phosphors Photoluminescence Synthesis (chemistry)
title	Visible quantum cutting in Tb super(3+) doped BaGdF sub(5) phosphor for plasma display panel
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