1. Room temperature phosphorescence of 2-thioxo-coumarins in aqueous solution promoted by octa acid inclusion.
- Author
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Ghosh, Sujit Kumar, Valloli, Lakshmy Kannadi, Unny, Divya, Sivaguru, Jayaraman, Jockusch, Steffen, and Ramamurthy, Vaidhyanathan
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PHOSPHORESCENCE spectroscopy , *PHOSPHORESCENCE , *SPIN-orbit interactions , *AQUEOUS solutions , *INTRAMOLECULAR charge transfer , *CHARGE transfer , *BAND gaps - Abstract
[Display omitted] • 2-Thioxo-coumarins are established to show room temperature phosphorescence in aqueous media. • The utility of the organic cavitand octa acid in solubilizing and bringing out phosphorescence from 2-thioxo-coumarins in water at room temperature has been established. • 2-Thioxo-coumarins which undergoes intramolecular electron/charge transfer emits only fluorescence in water at room temperature. But, in presence of octa acid capsule it shows only phosphorescence. • Octa acid fails to induce room temperature phosphorescence from a 2-thioxo-coumarin that undergoes chemical reaction from the triplet state. • Self-quenching and oxygen quenching that competes with phosphorescence are suppressed by octa acid encapsulation. But it fails to overcome the photofragmentation reaction to favor phosphorescence. Unlike coumarins, the sulfur analogues, 2-thioxo-coumarins (TCs) have not attracted attention. Given the large energy gap between S 2 and S 1 and high spin–orbit coupling between S 1 and T 1 in these systems lack of attention is surprising. In this manuscript, we are concerned with the phosphorescence of seven TCs at room temperature. The TCs investigated here belong to two groups, one with the amino substitution at the 7-position and the other with an assorted collection of the parent, alkoxy and acetoxy substituted ones. All seven TCs show phosphorescence at 77 K while the ones with amino substitution exhibit both fluorescence and phosphorescence. The inability of phosphorescence to compete fully in this set is attributed to intramolecular electron/charge flow from the lone pair of the amino functionality. Occurrence of such a process opens opportunities to examine the solvation dynamics and TICT process in these systems. The most important result relates to the observation of room temperature phosphorescence (RTP) of these molecules in water with the help of octa acid host. TCs that are not soluble can be solubilized in water with OA capsule and this strategy suppresses self-quenching and oxygen quenching in favor of radiative process in the triplet state. When the chemical reaction is facile as in one system investigated here OA fails to bring about RTP. In our opinion, octa acid capsule can serve as an excellent medium to bring about RTP from organic molecules in water. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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