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Mechanistic Investigation of Sensitized Europium Luminescence: Excited State Dynamics and Luminescence Lifetime Thermometry

Tsz‐Lam Cheung, Zhijie Ju, Wenchao Zhang, David Parker, Renren Deng

2024ACS Applied Materials & Interfaces19 citationsDOI

Abstract

Fluorescent nanothermometers based on thermal-dependent lifetime have a significant advantage in biological imaging owing to their immunity toward scattering, absorption, and autofluorescence. In this study, we present the first example of a water-soluble europium complex ( [L 1 Eu] – ) that exhibits high sensitivity (1.2% K –1 at 298 K) based on a temperature-dependent lifetime in the millisecond time range. This complex and its analogues show considerable potential for organelle imaging. The mechanism behind this thermal-sensitive behavior has been extensively investigated using transient absorption spectroscopy and variable temperature time-resolved luminescence methods. A highly efficient ligand sensitization process and a thermally activated back energy transfer process have been demonstrated. This study bridges the gap in small molecule thermometers with lifetimes longer than 1 ms and provides guidance in ligand design for metal coordination complex thermometers.

Topics & Concepts

LuminescenceEuropiumMaterials scienceUltrafast laser spectroscopyPhotochemistryExcited stateAbsorption (acoustics)FluorescenceSpectroscopyOptoelectronicsOpticsAtomic physicsChemistryQuantum mechanicsPhysicsComposite materialLanthanide and Transition Metal ComplexesLuminescence Properties of Advanced MaterialsLuminescence and Fluorescent Materials
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