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Intramolecular Energy Transfer The Fluorescence of Complexes of Europium
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1942
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Phosphorescence ImagingTrivalent EuropiumEngineeringPhotochemistryCharacteristic Line FluorescenceIntramolecular Energy TransferUnit EfficiencyExcitation Energy TransferOrganic ChemistryAnalytical ChemistryAtomic Fluorescence SpectroscopyMolecular ComplexChemistryLuminescence PropertyThermally Activated Delayed FluorescencePhotophysical PropertyBiophysicsPhosphorescence
Trivalent europium fluorescence can be excited in organoeuropium compounds by light absorbed by the organic moiety, but the excitation efficiency depends strongly on compound type, temperature, and solvent. Optimal conditions yield near‑unit fluorescence efficiency, with decay times unaffected by quenching—which only blocks europium excitation—and a gradual efficiency decline is observed from covalent to ionic compounds.
The characteristic line fluorescence of trivalent europium is excited in certain organoeuropium compounds by irradiation with light absorbed only by the organic part of the compound. The efficiency of excitation varies greatly with the nature of the compound, temperature, and solvent. Under optimum conditions, i.e., solution of a covalent compound at liquid-air temperature, almost unit efficiency has been obtained. The decay time of the fluorescence is independent of quenching; quenching prevents excitation of the europium ion. There seems to be a steady gradation of efficiency of transfer from covalent to ionic compounds.
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