Development of green/red-absorbing chromophores based on a coumarin scaffold that are useful as caging groups
Author
Other authors
Publication date
2017-05Abstract
We report the design, synthesis, and spectroscopic characterization of a series of push–pull chromophores based on a novel coumarin scaffold in which the carbonyl of the lactone function of the original coumarin dyes has been replaced by the cyano(4-nitrophenyl)methylene moiety. The skeleton of the compounds was synthesized by condensation of a thiocoumarin precursor with the corresponding arylacetonitrile derivatives, and their photophysical properties were fine-tuned through the incorporation of electron-withdrawing groups (EWGs) like nitro and cyano at the phenyl ring, leading to absorption in the green to red region. Although fluorescence emission was weakened or even canceled upon introduction of two or three strong EWGs, the emission of the mononitro-containing coumarin derivatives in the red region upon excitation with green light is noticeable, as are their significantly large Stokes shifts. The new coumarin derivatives can be useful as photocleavable protecting groups, as demonstrated through the synthesis and characterization of a series of coumarin-based photocages of benzoic acid. Preliminary photolysis studies with green light have demonstrated that the structure of the coumarin chromophore influences the rate of the uncaging process, opening the way to exploiting these new coumarin scaffolds as caging groups that can be removed with visible light.
Document Type
Article
Accepted version
Language
English
Subject (CDU)
547 - Organic chemistry
Keywords
Àcid benzoic
Fotoquímica
Cumarines
Photochemistry
Chromophores
Light
Benzoic acid
Nuclear magnetic resonance spectroscopy
Pages
29 p.
Publisher
American Chemical Society
Is part of
Journal of Organic Chemistry. Vol.82, n.10 (2017), p.5398-5408
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Rights
© American Chemical Society. Tots els drets reservats