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Achieving tunable multicolor display and sensitive temperature sensing in self-sensitization of erbium-doped CaF<sub>2</sub> nanocrystals under 808, 980 and 1532 nm irradiation

Xu Yang, Linxuan Wang, Rui Wang, Zining Yang, Changqing Song, Maohui Yuan, Kai Han, Sheng Lan, Hongyan Wang, Xiaojun Xu

2021Optical Materials Express22 citationsDOIOpen Access PDF

Abstract

Photon upconversion (UC) based on self-sensitization of lanthanide-doped nanocrystals is of great importance for biological and photonic applications. Here, we report tunable multicolor display and sensitive temperature sensing in the erbium-doped CaF 2 upconversion nanocrystals (UCNCs) codoped with Tm 3+ ions. Under the excitation of 980, 808 and 1532 nm lasers, the upconversion luminescence (UCL) color of these self-sensitized UCNCs can be manipulated from green to red efficiently and the red-to-green (R/G) UC intensity ratio is promoted remarkably as the doping Tm 3+ ions vary from 0 to 4 mol%. Especially, we have successfully demonstrated the multicolor modulation of these UCNCs by changing the pulse width and repetition frequency under multi-wavelength excitation. The power dependence and decay lifetimes measurements of Er 3+ ions under multi-wavelength excitation were carried out to clarify the UC color manipulation. In addition, the optical temperature sensing properties of CaF 2 :Er 3+ /Tm 3+ (10/0.125 mol%) UCNCs are also studied thoroughly under 980, 808 and 1532 nm lasers excitation, and the results show that the UCNCs possess outstanding thermal sensitivity. The features enable these UCNCs to act as promising candidates for high-resolution biological imaging, multicolor display and nanoscale thermometer fields.

Topics & Concepts

Photon upconversionMaterials scienceOptoelectronicsErbiumExcitationDopingNanocrystalLaserFemtosecondPhotonicsIonLuminescenceWavelengthOpticsNanotechnologyChemistryEngineeringOrganic chemistryElectrical engineeringPhysicsLuminescence Properties of Advanced MaterialsLuminescence and Fluorescent MaterialsPerovskite Materials and Applications