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Innovative Strategy Toward Red Emission: Single-Benzenic, Ultrasmall<i>meta</i>-Fluorophores

Mrinal Mandal, Tanmay Chatterjee, Debjit Roy, Ananya Das, Chayan K. De, Saptarshi Mandal, S. Ghosh, Ankita Sen, Malancha Ta, Prasun K. Mandal

2020The Journal of Physical Chemistry C22 citationsDOI

Abstract

Contrary to the belief of the chemistry community, intense charge transfer is observed between meta-oriented donor–acceptor moieties in ultrasmall single-benzenic fluorophores. Red emission in any solvent has so far been reported with molecular fluorophores having the lowest molecular weight (MW) of 252.5 Da; however, we have achieved the same with a meta-fluorophore having an MW of only 203.1 Da. Red emission in a nonpolar solvent has so far been reported with a fluorophore having a minimum MW of 464.5 Da, but we have achieved the same with a meta-fluorophore having an MW of only 255.3 Da. Intense Stokes (260 nm) and solvatochromic (160 nm) shifts, high magnitudes of fluorescence quantum yield (>0.4), and excited-state lifetime (>16 ns) have been obtained in these single-benzenic meta-fluorophores, and these values are comparatively much higher in comparison to corresponding o-/p-fluorophores. These extraordinary meta-fluorophores have been employed to measure subcellular nanopolarity in live stem cells toward cost-effective white fluorescent ink and white light-emitting diodes (LEDs) in solid state.

Topics & Concepts

FluorophoreSolvatochromismFluorescenceQuantum yieldPhotochemistryStokes shiftAcceptorChemistryExcited stateMaterials scienceOpticsAtomic physicsPhysicsCondensed matter physicsLuminescence and Fluorescent MaterialsPhotoreceptor and optogenetics researchMolecular Sensors and Ion Detection