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Precise Temperature Sensing and Optical Information Storage via Dual-Emission Gallate Phosphors

Pengcheng Wu, Teng Zhang, Yang Ding, Heyi Yang, Fangyi Zhao, Qinan Mao, Meijiao Liu, Jiasong Zhong

2025Inorganic Chemistry19 citationsDOI

Abstract

Luminescent temperature sensing has become a research hotspot in the past few years. Nevertheless, improving the sensitivity and resolution remains a key challenge. Herein, Bi 3+,Sm 3+ -codoped CaYGaO 4 phosphors with precise temperature sensing performance and excellent photochromic characteristics were developed. The energy difference between the Sm 3+ levels hinders the multiphoton relaxation (MPR) process, giving rise to temperature insensitivity. By virtue of the drastically different temperature dependence between Bi 3+ and Sm 3+ ions, an accurate fluorescence intensity ratio (FIR) thermometer is fabricated. Sm 3+ emission is used as a reference signal, while Bi 3+ emission is adopted as a probe signal. The maximum absolute sensitivity ( S a ) and relative sensitivity ( S r ) of the CaYGaO 4:Bi 3+,Sm 3+ phosphors are 0.0018 K –1 (@563 K) and 0.56% K –1 (@544 K), respectively. Moreover, the CaYGaO 4:Bi 3+,Sm 3+ exhibits superior photochromic characteristics, rapidly changing its color from white to brown in 25 s under 254 nm light irradiation, and has outstanding cycling stability. Overall, the phosphors provide potential multifunctional applications in anticounterfeiting and optical information storage fields.

Topics & Concepts

ChemistryPhosphorGallateDual (grammatical number)PhotochemistryOptoelectronicsNuclear chemistryArtPhysicsLiteratureGas Sensing Nanomaterials and SensorsTransition Metal Oxide NanomaterialsPerovskite Materials and Applications