Crystal structure, optical spectroscopy and energy transfer properties in NaZnPO4:Ce3+, Tb3+ phosphors for UV-based LEDs

K. Saidi; M. Dammak

doi:10.1039/D0RA04163G

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Crystal structure, optical spectroscopy and energy transfer properties in NaZnPO₄:Ce³⁺, Tb³⁺ phosphors for UV-based LEDs †

K. Saidi

^a and M. Dammak

*^a

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* Corresponding authors

^a Département de Physique, Faculté des Sciences de Sfax, Laboratoire de Physique Appliquée, Groupe de Physique des Matériaux Luminescents, Université de Sfax, 3018 Sfax, Tunisia
E-mail: madidammak@yahoo.fr

Abstract

A new series of Ce³⁺, Tb³⁺ singly doped and Ce³⁺/Tb³⁺ co-doped NaZnPO₄ (NZPO) phosphors have been synthesized via a high-temperature solid-state reaction method at 800 °C. The crystal cell structure, luminescence proprieties, energy transfer, and chromaticity coordinates of the as-prepared phosphors were investigated in detail. The photoluminescence spectra of NZPO:Ce³⁺ phosphors exhibited broad emission in the 300–380 nm range, while under UV excitation, the singly doped NZPO:Tb³⁺ phosphor showed emission peaks at ∼485–690 nm among which the green emission peak appears at ∼543 nm. The Tb³⁺ green emission was significantly enhanced almost 20 times via energy transfer from Ce³⁺ to Tb³⁺. The energy transfer (ET) mechanism from Ce³⁺ to Tb³⁺ in NZPO is identified to be a resonant type via the dipole–dipole interaction mechanism with an ET efficiency of 91%. Intense green emission is obtained at very low Tb³⁺ concentrations under 285 nm excitation, making NZPO:Ce³⁺/Tb³⁺ an efficient UV-excited green phosphor. The NaZnPO₄:Ce³⁺/Tb³⁺ phosphors are promising UV convertible materials of green light for UV -LEDs applications.

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Article information

DOI: https://doi.org/10.1039/D0RA04163G
Article type: Paper
Submitted: 09 May 2020
Accepted: 02 Jun 2020
First published: 08 Jun 2020
This article is Open Access

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RSC Adv., 2020,10, 21867-21875

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Crystal structure, optical spectroscopy and energy transfer properties in NaZnPO₄:Ce³⁺, Tb³⁺ phosphors for UV-based LEDs

K. Saidi and M. Dammak, RSC Adv., 2020, 10, 21867 DOI: 10.1039/D0RA04163G

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