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Article Abstract
Tb-doped phosphors, serving as critical green-emitting materials for solid-state lighting, face severe reliability limitations in high-power devices due to their high-temperature thermal quenching effects. This study proposes a synergistic strategy combining excitation-driven modulation with host-activator energy transfer optimization through Ta/Nb cosubstitution in novel YTaNbO:3%Tb phosphors, achieving integrated innovation in thermal quenching suppression and dual-mode thermal response functionality. Photoluminescence measurements and density functional theory (DFT) calculations demonstrate energy transfer from [Ta/NbO] to Tb in the phosphors, while minor Nb substitution ( = 0.005) enhances the energy transfer efficiency from the host-to-activator. Concurrently, under excitation-driven effects (λ = 233 nm), the phosphor exhibits 1.75-fold luminescence enhancement at 523 K compared with 298 K. Subsequent thermal cycling tests demonstrate a 2.10-fold enhancement in maximum relative luminescence intensity by the second cycle. Innovative discoveries: the phosphor displays reversible thermally responsive luminescence with dynamic migration of International Commission on Illumination (CIE) chromaticity coordinates during heating. Two derived applications are as follows: fluorescence intensity ratio-CIE chromaticity hybrid optical thermometry model (maximum relative sensitivity is 1.25% K); multiwavelength-excitation-driven dynamic anticounterfeiting system. This research provides a novel strategy for developing intelligent thermally responsive phosphors, demonstrating unique application potential in high-precision temperature sensing and high-security information encryption.
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| http://dx.doi.org/10.1021/acs.inorgchem.5c03338 | DOI Listing |
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