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Greatly enhanced persistent luminescence of YPO<sub>4</sub>:Sm<sup>3+</sup> phosphors via Tb<sup>3+</sup> incorporation for in vivo imaging

Yue Hu, Xiaoxiao Li, Xin Wang, Yunqian Li, Tianyi Li, Hongxiang Kang, Hongwu Zhang, Yanmin Yang

2020Optics Express23 citationsDOIOpen Access PDF

Abstract

The premise that long afterglow can be applied is its duration, and the persistent duration is closely related to the depth of the traps. Therefore, the stable deep traps are the key to obtain long persistent luminescence. Based on this, a strategy that X-ray excites high-gap phosphors to achieve long persistent luminescence is firstly proposed. Herein, rare earth (RE) ions doped YPO 4 phosphor is adopted as the research object as RE ions can form stable and deeper defect centers or luminescent centers in high bandgap materials. Furthermore, the efficient method of enhancing persistent luminescence is designed so that introducing Tb 3+ ions into YPO 4 :Sm 3+ crystals forms tightly bound excitons, which modulates the depth of defect centers (Sm 3+ ions), improving the afterglow behavior from Sm 3+ ions for more than two days, which is approximately 14 times stronger than the afterglow of YPO 4 :Sm 3+ phosphors itself. Finally, highly efficient in vivo deep tissue bioimaging was successfully achieved through mouse tail intravenous injection. The results indicate that the YPO 4 :Sm 3+ ,Tb 3+ phosphor possesses great promise in the field of in vivo imaging.

Topics & Concepts

AfterglowPhosphorPersistent luminescenceLuminescenceIonPhotoluminescenceMaterials scienceExcitonDopingOptoelectronicsAnalytical Chemistry (journal)ChemistryThermoluminescencePhysicsAstronomyQuantum mechanicsOrganic chemistryChromatographyGamma-ray burstLuminescence Properties of Advanced MaterialsLuminescence and Fluorescent MaterialsRadiation Detection and Scintillator Technologies
Greatly enhanced persistent luminescence of YPO<sub>4</sub>:Sm<sup>3+</sup> phosphors via Tb<sup>3+</sup> incorporation for in vivo imaging | Litcius