Opto/Thermoresponsive Multimode Luminescence in Eu- and Er-Activated CaF 2 Phosphor for High-Security Anticounterfeiting.

As the landscape of information storage and security continues to evolve, the deployment of sophisticated anticounterfeiting strategies with robust security features and multimodal luminescent capabilities becomes imperative. In this work, Eu ³⁺ and Er ³⁺ ions are codoped into CaF ₂ phosphors to achieve multimodel optical output. The self-reduction of Eu ³⁺ within the CaF ₂ matrix gives rise to the coexistence of Eu ³⁺ and Eu ²⁺ ions, which manifests as a color transition from orange to blue as the excitation wavelength is varied from 300 to 335 nm. Moreover, the distinct temperature-dependent behaviors of Eu ³⁺ and Eu ²⁺ ions underscore the material's visible temperature-sensitive luminescence properties, characterized by remarkable thermal sensitivity ( S _a = 0.0156 K ^-1 , S _r = 0.83%K ^-1 ). Additionally, the strategic introduction of Er ³⁺ ions adds an extra dimension, enabling the realization of color-tunable upconversion luminescence through the fine-tuning of Er ³⁺ concentration. This synergistic integration culminates in the establishment of an efficient three-path authentication model within the CaF ₂ host matrix, facilitating a dynamic multicolor response to changes in the excitation wavelength and temperature. By harnessing these diverse luminescent modalities, the study delivers a versatile and potent anticounterfeiting solution, advancing the frontiers of information security.