Publication: Benzotriazole-based multidonor-acceptor systems as attractive two-photon absorption dye platforms
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Identifiers
Date
2022-02-09
Authors
Benitez-Martin, Carlos
Donoso, Beatriz
Torres-Moya, Ivan
Herrera, Jesus
Diaz-Ortiz, Angel
Najera, Francisco
Prieto, Pilar
Perez-Inestrosa, Ezequiel
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Volume Title
Publisher
Elsevier
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Abstract
Pyrazine-decorated benzotriazole cores allow the orthogonal combination of two dipolar systems within a single molecule. A series of this type of derivatives was synthesized and their photophysical features were studied. The properties of these compounds showed remarkable differences in function depending on the substitution in the pyrazine ring of the benzotriazole core. Furthermore, the two-photon absorption property (2PA) was studied to determine the structure-properties relationship for the reported compounds. The best dye achieved a crosssection of 1532 GM, which was higher than values previously obtained for similar D-pi-A-pi-D benzotriazole derivatives. TD-DFT calculations, which supported the experimental observations, indicating the interaction between the two dipolar systems was responsible for enhancing the 2 PA properties and favoring bathochromic shifts.
Description
MeSH Terms
Density functional theory
Benzotriazole
Chemical phenomena
Photons
Triazoles
Benzotriazole
Chemical phenomena
Photons
Triazoles
DeCS Terms
Fenómenos químicos
Fotones
Teoría funcional de la densidad
Fotones
Teoría funcional de la densidad
CIE Terms
Keywords
Two-photon absorption, Fluorescence, DFT calculations, Benzotriazole dyes, Optical-data storage, Absorbing chromophores, Fluorescent-probe, Red-fluorescent, Wave-guide, Design, Benzothiadiazole, Emission, Thiadiazoloquinoxaline, Initiators
Citation
Benitez-Martin C, Donoso B, Torres-Moya I, Herrera J, Díaz-Ortiz Á, Najera F, et al. Benzotriazole-based multidonor-acceptor systems as attractive twophoton absorption dye platforms. Dyes and Pigments. 2022, (200). 110149