Synthesis and fluorescence of N-squaraine dianions derived from electron-deficient primary anilines

Squaraines are 1,3-disubstituted squaric acid derivatives featuring intense fluorescence in the visible. Unlike their parent compounds, N-squaraines obtained by condensation reaction between squaric acid and primary anilines are non-fluorescent compounds. The incorporation of electron-withdrawing su...

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Bibliographic Details
Published in:Dyes and pigments 2022-11, Vol.207, p.110746, Article 110746
Main Authors: Vega, Manel, Gomila, Rosa M., Pons, Jordi, Frontera, Antonio, Rotger, Carmen, Costa, Antonio
Format: Article
Language:English
Subjects:
DFT calculations
Dianion
Fluorescence
Squaraine dyes
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Summary:Squaraines are 1,3-disubstituted squaric acid derivatives featuring intense fluorescence in the visible. Unlike their parent compounds, N-squaraines obtained by condensation reaction between squaric acid and primary anilines are non-fluorescent compounds. The incorporation of electron-withdrawing substituents in the para position of the phenyl rings turns these compounds acidic enough to form the corresponding dianions by acid-base reaction with alkaline hydroxide in mixed DMSO-H2O solvent mixtures. This work reports the microwave-assisted synthesis of N-squaraines and the investigation of the optical characteristics of their dianions. The dianionic squaraines have a C4N2O22− squaryl core with absorption maxima at 450–748 nm (molar absorptions up to 7.6 × 104 M−1 cm−1). The N-squaraine dianions are highly fluorescent in the 507–644 nm range (quantum yields 0.18–0.72). Due to their negative charge, and contrary to the expectations, anionic N-squaraines are chemically stable for hours in 50% v/v H2O–DMSO solvent mixtures. DFT calculations show the absorption bands are S0 → S1 excitations (HOMO → LUMO) and S1 → S0 transitions (LUMO → HOMO) for the emission. In both cases, the calculated wavelengths compare well with the experimental observations. [Display omitted] •Discovering the fluorescent behaviour of classical N-squaraines dianions derived from primary anilines.•Aryl rings having electron-withdrawing substituents turn N-squaraines slightly acidic.•N-squaraine dianions can be brightly fluorescent in alkaline dimethylsulfoxide-water solutions.•Experimental and calculated absorption and emission data support a simple HOMO-LUMO excitation-emission pathway.
ISSN:0143-7208
1873-3743
DOI:10.1016/j.dyepig.2022.110746