A Temporal and Space Anti-counterfeiting Based on the Four-Modal Luminescent Ba<sub>2</sub>Zr<sub>2</sub>Si<sub>3</sub>O<sub>12</sub> Phosphors
Xiaodie Zhu, Ting Wang, Zhichao Liu, Yiyu Cai, Chao Wang, Hongyu Lv, Ya Liu, Chaochao Wang, Jianbei Qiu, Xuhui Xu, Hongqing Ma, Xue Yu
Abstract
Fluorescent anti-counterfeiting materials have been widely studied due to their high resolution and convenient identification by direct visualization of the color output. To date, the anti-counterfeiting technology of single ultraviolet excitation mode still has security problems because the single mode could be imitated easily. Here, we have successfully developed four modes of anti-counterfeiting from Eu2+ and Er3+ co-doped Ba2Zr2Si3O12 phosphors with photo, long persistent, photo-stimulated, and up-conversion luminescence behavior. The as-fabricated phosphors can emit an intense blue-green luminescence originating from the characteristic transition of Eu2+ ions and exhibit a blue-green long persistent luminescence phenomenon. Moreover, the enhancement of photo-stimulated luminescence that contributed to the effectively increased trap concentration is observed, along with the produced up-conversion phenomenon thanks to the introduction of Er3+ ions. Notably, the fluorescence rapidly changes from blue-green to stable green luminescence with the delay of excitation time under the excitation of a 980 nm laser diode. Herein, this work realizes the fast down- to up-conversion luminescence output over time, which provides the basis for its possible application in advanced multi-mode anti-counterfeiting.