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Discrete Heteropolynuclear Yb/Er Assemblies: Switching on Molecular Upconversion Under Mild Conditions

Jie Wang, Yue Jiang, Jiao‐Yang Liu, Hai‐Bing Xu, Yuexing Zhang, Peng Xu, Mohamedally Kurmoo, Seik Weng Ng, Ming‐Hua Zeng

2021Angewandte Chemie International Edition43 citationsDOI

Abstract

Abstract The salts {[Ln 2 Ln*(Hhmq) 3 (OAc) 3 (hfac) 2 ] + [Ln*(hfac) 3 (OAc)(MeOH)] − } (Hhmq=2‐methanolquinolin‐8‐oxide, hfac=hexafluoroacetylacetonate; Ln, Ln*=Er, Gd, Yb) feature a discrete heteronuclear cation consisting of two types of lanthanide atoms. The quinolinoxy O‐atom serves as a μ 2 ‐bridge to two Ln atoms and as a μ 3 ‐bridge to all three atoms, with metal⋅⋅⋅metal distances being around 3.7 Å. For 1 ( [Yb 2 Er] + ), near‐infrared downshifted luminescence is switched to competitive upconversion luminescence upon irradiation by a 980 nm laser under an extremely low excitation power (0.288 W cm −2 ) through introduction of fluoride ions. The stability of 1 after addition of fluoride was confirmed by powder X‐ray diffraction and multistage mass spectrometry, associated with the 1 H NMR of 6 ( [La 2 Eu] + ). More importantly, the at least 20‐fold enhancement of the quantum yield in non‐deuterated solvents at room temperature under low power densities (2 W cm −2 ) is the highest among the few molecular examples reported.

Topics & Concepts

Heteronuclear moleculePhoton upconversionFluorideLanthanideChemistryLuminescenceCrystallographyYield (engineering)Quantum yieldIonMoleculePhysical chemistryMaterials scienceInorganic chemistryOrganic chemistryOptoelectronicsPhysicsQuantum mechanicsMetallurgyFluorescenceLanthanide and Transition Metal ComplexesLuminescence Properties of Advanced MaterialsLuminescence and Fluorescent Materials
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