Highly fluorescent hybrid pigments from anthocyanin- and red wine pyranoanthocyanin-analogs adsorbed on sepiolite clay

Flavylium cations serve as models for the chemical and photochemical reactivity of anthocyanins, the natural plant pigment responsible for many of the red, blue and purple colors of fruits and flowers. Likewise, pyranoflavylium cations serve as models of the fundamental chromophoric moiety of pyrano...

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Bibliographic Details
Published in:Photochemical & photobiological sciences 2019, Vol.18 (7), p.175-176
Main Authors: Silva, Gustavo Thalmer M, da Silva, Karen M, Silva, Cassio P, Rodrigues, Ana Clara B, Oake, Jessy, Gehlen, Marcelo H, Bohne, Cornelia, Quina, Frank H
Format: Article
Language:English
Subjects:
Acetonitrile
Anthocyanins
Aqueous solutions
Biochemistry
Biomaterials
Cations
Chemistry
Clay
Color
Dyes
Flowers
Fluorescence
Grooves
Organic chemistry
Photochemicals
Physical Chemistry
Pigments
Plant Sciences
Sepiolite
Substrates
Thermal degradation
Thermal resistance
Thermal stability
Tunnels
Wine
Wines
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Summary:Flavylium cations serve as models for the chemical and photochemical reactivity of anthocyanins, the natural plant pigment responsible for many of the red, blue and purple colors of fruits and flowers. Likewise, pyranoflavylium cations serve as models of the fundamental chromophoric moiety of pyranoanthocyanins, molecules that can form from reactions of grape anthocyanins in red wines during their maturation. In the present work, hybrid pigments are prepared by the adsorption of a series of five synthetic flavylium cations (FL) and five synthetic pyranoflavylium cations (PFL) on sepiolite clay (SEP). The FL are smaller in size than the PFL, but both can in principle fit into the tunnels and/or external grooves (with dimensions of 3.7 × 10.6 Å) of SEP. Measurements of the fluorescence quantum yields of the adsorbed dyes indicate that they are at least as fluorescent as in acidic acetonitrile solution, and in a few cases substantially more fluorescent. The observation of biexponential fluorescence decays is consistent with emission from dye molecules adsorbed at two distinct sites, presumably tunnels and grooves. These hybrid materials also have improved properties in terms of stability of the color in contact with pH 10 aqueous solution and resistance to thermal degradation of the dye. SEP thus appears to be a promising substrate for the development of highly fluorescent flavylium or pyranoflavylium cation-derived hybrid pigments with improved color and thermal stability. Adsorption of flavylium and pyranoflavylium cations on sepiolite clay produces highly fluorescent hybrid pigments with improved color and thermal stability.
ISSN:1474-905X
1474-9092
DOI:10.1039/c9pp00141g