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Interplay of defect levels and rare earth emission centers in multimode luminescent phosphors

Xinquan Zhou, Lixin Ning, Jianwei Qiao, Yifei Zhao, Puxian Xiong, Zhiguo Xia

2022Nature Communications242 citationsDOIOpen Access PDF

Abstract

Abstract Multimode luminescence generally involves tunable photon emissions in response to various excitation or stimuli channels, which demonstrates high coding capacity and confidentiality abilities for anti-counterfeiting and encryption technologies. Integrating multimode luminescence into a single stable material is a promising strategy but remains a challenge. Here, we realize distinct long persistent luminescence, short-lived down/upconversion emissions in NaGdTi 2 O 6 :Pr 3+ , Er 3+ phosphor by emloying interplay of defect levels and rare earth emission centers. The materials show intense colorful luminescence statically and dynamically, which responds to a wide spectrum ranging from X-ray to sunlight, thermal disturbance, and mechanical force, further allowing the emission colors manipulable in space and time dimensions. Experimental and theoretical approaches reveal that the Pr 3+ ↔ Pr 4+ valence change, oxygen vacancies and anti-site Ti Gd defects in this disordered structure contributes to the multimode luminescence. We present a facile and nondestructive demo whose emission color and fade intensity can be controlled via external manipulation, indicating promise in high-capacity information encryption applications.

Topics & Concepts

PhosphorLuminescenceRare earthMaterials sciencePersistent luminescenceEarth (classical element)OptoelectronicsPhysicsThermoluminescenceMetallurgyMathematical physicsLuminescence Properties of Advanced MaterialsRadiation Detection and Scintillator TechnologiesPerovskite Materials and Applications
Interplay of defect levels and rare earth emission centers in multimode luminescent phosphors | Litcius