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Second-phase-induced fluorescence quenching in non-equivalent substituted red phosphors.


ABSTRACT: Concentration quenching, which generally originates from serious energy migrations among the uniformly distributed luminescent centers in the host matrix, is a key factor to influence the luminescence properties of materials. Different from previous reports, we demonstrate a novel fluorescence-quenching mechanism attributable to the second-phase Eu2W2O9 in non-equivalent substituted SrWO4:xEu3+ phosphors. The crystal structure, elemental distribution, and luminescence properties of the as-prepared SrWO4:xEu3+ phosphors are systematically investigated. A second-phase Eu2W2O9 is confirmed when the Eu3+-doping concentration exceeds 20%, which produces the new structure defects and energy-transfer paths, resulting in fluorescence quenching in this material. This finding gives a new perspective to analyze the concentration-quenching mechanism of the non-equivalent substituted phosphors and can help in the design of new, efficient luminescence materials. In addition, the as-prepared SrWO4:xEu3+ phosphors exhibit a strong intrinsic excitation in the range of 355-425 nm, which is accompanied by the Commission Internationale de I'Eclairage (CIE) coordinates at (0.653, 0.347) and stable color purity of up to 94.52%. A packaged white light-emitting diode with CIE chromaticity coordinates of (0.398, 0.335), correlated color temperature of 3132 K, and color rendering index of 84.3 is fabricated by SrWO4:20%Eu3+ phosphors with blue BAM:Eu2+ and green YAGB:Tb3+ phosphors in a near-ultraviolet chip.

SUBMITTER: Chen J 

PROVIDER: S-EPMC9585437 | biostudies-literature | 2022 Oct

REPOSITORIES: biostudies-literature

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Second-phase-induced fluorescence quenching in non-equivalent substituted red phosphors.

Chen Jun J   Yang Xianfeng X   Jiang Chunyan C   Wang Yunfeng Y   Zhou Lei L   Wu Mingmei M  

RSC advances 20221021 45


Concentration quenching, which generally originates from serious energy migrations among the uniformly distributed luminescent centers in the host matrix, is a key factor to influence the luminescence properties of materials. Different from previous reports, we demonstrate a novel fluorescence-quenching mechanism attributable to the second-phase Eu<sub>2</sub>W<sub>2</sub>O<sub>9</sub> in non-equivalent substituted SrWO<sub>4</sub>:<i>x</i>Eu<sup>3+</sup> phosphors. The crystal structure, elemen  ...[more]

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