FormylBODIPYs: Privileged Building Blocks for Multicomponent Reactions. The Case of the Passerini Reaction

Ramírez‐Ornelas, Diana E.; Alvarado-Martínez, Enrique; Bañuelos, Jorge; López‐Arbeloa, Íñigo; Arbeloa, Teresa; Mora-Montes, Héctor M.; Perez‐Garcia, Luis; Peña‐Cabrera, Eduardo

doi:10.1021/acs.joc.5b02893

Cited by 28 publications

(20 citation statements)

References 66 publications

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“…Such sudden enhancement of the non-radiative rate constants was attributed at first sight to the deactivation channels afforded by the free rotation of the 8-coumarin fragment directly linked to the BODIPY. Indeed, low fluorescence efficiencies have been reported for BODIPYs bearing unconstrained aryls at the said key meso position [37][38][39], as supported by the theoretically conducted potential energy curves, which highlight the key role on the photophysics of the conformational freedom around the linkage bond between the BODIPY and the 8-aryls [40][41][42][43].…”

Section: Photophysical Propertiesmentioning

confidence: 86%

Ready Access to Molecular Rotors Based on Boron Dipyrromethene Dyes-Coumarin Dyads Featuring Broadband Absorption

et al. 2020

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Herein we report on a straightforward access method for boron dipyrromethene dyes (BODIPYs)-coumarin hybrids linked through their respective 8- and 6- positions, with wide functionalization of the coumarin fragment, using salicylaldehyde as a versatile building block. The computationally-assisted photophysical study unveils broadband absorption upon proper functionalization of the coumarin, as well as the key role of the conformational freedom of the coumarin appended at the meso position of the BODIPY. Such free motion almost suppresses the fluorescence signal, but enables us to apply these dyads as molecular rotors to monitor the surrounding microviscosity.

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Section: Photophysical Propertiesmentioning

confidence: 86%

Ready Access to Molecular Rotors Based on Boron Dipyrromethene Dyes-Coumarin Dyads Featuring Broadband Absorption

et al. 2020

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“…Subsequent biological analysis identified PhagoGreen as a pH‐sensitive fluorophore for imaging phagocytic macrophages in vivo (Figure 2 H). An extension of this approach has been reported by Peña‐Cabrera and co‐workers with the derivatization of aldehyde‐functionalized BODIPYs in a Passerini MCR 14. With regard to the chromophore approach, Riva, Müller, and co‐workers recently described an Ugi MCR in which the initial adducts were converted into furo[2,3‐ c ]isoquinolines in a palladium‐catalyzed insertion/alkynylation/cycloisomerization cascade 15.…”

Section: Multicomponent Reactionsmentioning

confidence: 99%

Modern Synthetic Avenues for the Preparation of Functional Fluorophores

et al. 2017

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Biomedical research relies on the fast and accurate profiling of specific biomolecules and cells in a non‐invasive manner. Functional fluorophores are powerful tools for such studies. As these sophisticated structures are often difficult to access through conventional synthetic strategies, new chemical processes have been developed in the past few years. In this Minireview, we describe the most recent advances in the design, preparation, and fine‐tuning of fluorophores by means of multicomponent reactions, C−H activation processes, cycloadditions, and biomolecule‐based chemical transformations.

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“…Bei einer nachfolgenden biologischen Analyse konnte PhagoGreen als pH‐empfindlicher Fluorophor zur In‐vivo‐Darstellung von phagozytischen Makrophagen identifiziert werden (Abbildung H). Eine Erweiterung dieses Ansatzes war die Derivatisierung von Aldehyd‐funktionalisierten BODIPYs mithilfe einer Passerini‐MCR durch Peña‐Cabrera und Mitarbeiter . Bezüglich der Chromophormethode beschrieben Riva, Müller et al.…”

Section: Mehrkomponentenreaktionenunclassified

Moderne Strategien zur Synthese funktioneller Fluorophore

et al. 2017

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Die biomedizinische Forschung ist auf die schnelle, akkurate und nicht‐invasive Charakterisierung spezifischer Biomoleküle und Zellen angewiesen. Funktionelle Fluorophore sind für derartige Studien von enormem Nutzen. Da diese komplexen Strukturen oftmals mit konventionellen Mitteln der Synthese nur schwer zugänglich sind, wurden in den letzten Jahren neuartige chemische Prozesse entwickelt. Dieser Kurzaufsatz beschreibt die jüngsten Entwicklungen im Bezug auf Design, Herstellung und Feinregulierung von Fluorophoren mittels Mehrkomponentenreaktionen, C‐H‐Aktivierungsprozessen, Cycloadditionen und Biomolekül‐basierten chemischen Transformationen.

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FormylBODIPYs: Privileged Building Blocks for Multicomponent Reactions. The Case of the Passerini Reaction

Cited by 28 publications

References 66 publications

Ready Access to Molecular Rotors Based on Boron Dipyrromethene Dyes-Coumarin Dyads Featuring Broadband Absorption

Ready Access to Molecular Rotors Based on Boron Dipyrromethene Dyes-Coumarin Dyads Featuring Broadband Absorption

Modern Synthetic Avenues for the Preparation of Functional Fluorophores

Moderne Strategien zur Synthese funktioneller Fluorophore

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