Publication | Closed Access
Invoking ultralong room temperature phosphorescence of purely organic compounds through H-aggregation engineering
175
Citations
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References
2019
Year
EngineeringMolecular BiologyChemistryHigh-lying Transition-allowed StateReversed Phase TransformationChemical EngineeringPhosphorescence ImagingLow-lying Dark StateThermally Activated Delayed FluorescencePhotophysical PropertyH-aggregation EngineeringOrganic CompoundsBiophysicsPhotochemistryMechanistic PhotochemistryPhysical ChemistryMolecular AggregateMolecular EngineeringNatural SciencesMolecular SwitchPhosphorescence
Splitting energy (Δ<italic>ε</italic>)-controlled thermally activated reversed phase transformation from the low-lying dark state to the high-lying transition-allowed state of H-aggregation plays a key role in the organic ultralong room-temperature phosphorescence.
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