First-principles study on persistent luminescence mechanism of LiYGeO4:Eu3

LiYGeO4:Eu3+ is a red persistent luminescent material with a duration of more than 21 h. Although its persistent luminescence phenomenon has been fully studied, its detailed mechanism is still the subject of debates. Herein, we performed first-principles study on the intrinsic point defects and the...

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Bibliographic Details
Published inJournal of rare earths Vol. 41; no. 10; pp. 1519 - 1524
Main Authors Zhou, Shihang, Lou, Bibo, Ma, Chong-Geng, Yin, Min
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2023
Subjects
Charge transfer
Eu3
First-principles
Persistent luminescence
Point defects
Rare earths
Eu3
Point defects
Charge transfer
Rare earths
First-principles
Persistent luminescence
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Summary:LiYGeO4:Eu3+ is a red persistent luminescent material with a duration of more than 21 h. Although its persistent luminescence phenomenon has been fully studied, its detailed mechanism is still the subject of debates. Herein, we performed first-principles study on the intrinsic point defects and the charge transfer processes in LiYGeO4:Eu3+ to reveal the mechanism of persistent luminescence. The results show that, under charge transfer excitation, the electron is promoted from the valence band (oxygen ion ligand) to the central Eu3+ ion to form Eu2+ ion in LiYGeO4:Eu3+, leaving a hole behind. The charge transfer excitation can relax quickly to the excited state of the Eu3+ ion, which produces the characteristic 5D0 → 7FJ (J = 0–6) emission. The Li vacancies (VLi) and the antisite defects of Li replacing Y site (LiY) and Y replacing Li site (YLi) are main defects, while O vacancies (VO) are less important in concentration due to high formation energy. VLi and LiY can serve as hole-type traps, with the trap depths suitable for trapping the holes produced by illumination. The delayed release holes can combine with the Eu2+ left behind by the illumination, leading to persistent luminescence. The VLi trap is shallower than LiY, and the latter is responsible for the long duration of persistent luminescence. A schematic based on the calculation results is constructed to illustrate the mechanism of persistent luminescence. The Li vacancies (VLi) and the antisite defects Li replace Y site (LiY) are main defects in LiYGeO4:Eu3+, which can serve as the hole-type traps with the trap depths suitable for trapping the holes produced by illumination and lead to persistent luminescence of the characteristic 5D0 →7FJ (J = 0–6) emission of the Eu3+ ion. [Display omitted]
ISSN:1002-0721
2509-4963
DOI:10.1016/j.jre.2022.07.016