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Engineering a Reversible Primary Battery Structure in SrZnOS:Eu2+,Dy3+ for Multi-Modal Red Luminescence

The date of: 2026-07-16
viewed: 0

来源:ACS Publications


Rational design of Eu2+-activated red phosphors under visible light excitation remains a critical challenge in various fields such as photonics, optoelectronics, and white-light-emitting diodes. Herein, we engineer high density traps with a double metastable state in the SrZnOS matrix by constructing the reversible infinitesimal photoelectrochemical layered micro-unit battery structure via co-doping Eu2+ and Dy3+ ions for achieving robust red luminescence. The resulting SrZnOS:Eu2+,Dy3+ phosphor exhibits intense red photoluminescence at 620 nm under 468 nm excitation, matching the emission intensity of commercial SrAl2O4:Eu2+,Dy3+ under UV irradiation. Notably, this material exhibits multi-modal luminescence, encompassing red persistent luminescence along with tunable photo/thermo/mechano-stimulated luminescence. These properties make SrZnOS:Eu2+,Dy3+ highly promising for applications in secure information storage and advanced displays. Our work establishes a design principle for manipulating multi-mode luminescence in oxide hosts through photoelectrochemical cell engineering, opening avenues for next-generation functional materials.


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