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Trap‐Engineering the Persistent Luminescence of Ca <sub>3</sub> Ga <sub>4</sub> O <sub>9</sub> :Tb <sup>3+</sup> via Al <sup>3+</sup> Substitution for Optical Data Storage

Thulitha Abeywickrama, Angela Guo, Yuanbing Mao

2024Advanced Optical Materials11 citationsDOIOpen Access PDF

Abstract

Abstract Optically stimulated luminescence (OSL) materials hold great potential for optical data storage (ODS) and anticounterfeiting applications. Nevertheless, the scarcity of suitable luminescent materials with deep‐level traps remains a significant obstacle. Herein, a host substation strategy have been employed to tune the persistent luminescence (PersL) and OSL properties of Ca 3 Ga 4 O 9 :Tb 3+ by Al 3+ substitution through trap engineering and demonstrated their potential. Specifically, the photoluminescence of the Ca 2.985 (Ga 1‐y% Al y% ) 4 O 9 :0.5%Tb 3+ of Tb 3+ is first investigated due to its different occupancies of Ca 2+ . The influence of host substitution on the crystal structure, trap depth, trap density, PersL, and OSL properties have further investigated. A series of strong PersL and OSL peaks from the Ca 2.985 (Ga 1‐y% Al y% ) 4 O 9 :0.5%Tb 3+ with bluish‐green emissions have been observed. The Ca 2.985 (Ga 1‐y% Al y% ) 4 O 9 :0.5%Tb 3+ have shown controllable photon release upon thermal and optical stimuli, enhancing their performance for ODS. Thermally stimulated luminescence suggests that vacancy and defect concentrations inside the Ca 3‐x% (Ga 1‐y% Al y% ) 4 O 9 :x%Tb 3+ can be manipulated by Tb 3+ doping and Al 3+ substitution, which ultimately leads to the formation of deep traps and a broad distribution of traps with increased deep trap concentration. The work demonstrates that trap engineering through Al 3 ⁺ substitution is an effective method for tuning PersL and OSL properties of Ca 2.985 (Ga 1‐y% Al y% ) 4 O 9 :0.5%Tb 3+ for ODS.

Topics & Concepts

LuminescenceMaterials scienceSubstitution (logic)Persistent luminescenceTrap (plumbing)Analytical Chemistry (journal)OptoelectronicsAtomic physicsCrystallographyPhysicsThermoluminescenceComputer scienceChromatographyChemistryMeteorologyProgramming languageLuminescence Properties of Advanced MaterialsPhotorefractive and Nonlinear OpticsSolid State Laser Technologies