Journal ArticleDOI
Sulfur‐Bridged BODIPY DYEmers
TLDR
The qualitative applicability of the exciton model by Kasha for the interpretation of the absorption spectral shape with respect to the conformational state, subunit orientation and distance, and conjugation through the different sulfur bridges, is discussed in detail for the new BODIPY derivatives.Abstract:
Reactions of BODIPY monomers with sulfur nucleophiles and electrophiles result in the formation of new BODIPY dimers. Mono- and disulfur bridges are established, and the new dyestuff molecules were studied with respect to their structural, optical, and electrochemical properties. X-ray diffraction analyses reveal individual angulated orientations of the BODIPY subunits in all cases. DFT calculations provide solution conformers of the DYEmers which deviate in a specific manner from the crystallographic results. Clear exciton-like splittings are observed in the absorption spectra, with maxima at up to 628 nm, in combination with the expected weak fluorescence in polar solvents. A strong communication between the BODIPY subunits was detected by cyclic voltammetry, where two separated one-electron oxidation and reduction waves with peak-to-peak potential differences of 120–400 mV are observed. The qualitative applicability of the exciton model by Kasha for the interpretation of the absorption spectral shape with respect to the conformational state, subunit orientation and distance, and conjugation through the different sulfur bridges, is discussed in detail for the new BODIPY derivatives. This work is part of our concept of DYEmers, where the covalent oligomerisation of BODIPY-type dye molecules with close distances is leading to new functional dyes with predictable properties.read more
Citations
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Journal ArticleDOI
Selenium- and Tellurium-Containing Fluorescent Molecular Probes for the Detection of Biologically Important Analytes
TL;DR: Organochalcogen (R-E-R) chemistry in such chemical recognition and supramolecular pursuits is a fundamental tool to allow chemists to explore stable organic-based probe modalities of interest to develop better spectroscopic tools for (neuro)biological applications.
Journal ArticleDOI
Axially Chiral BODIPY DYEmers: An Apparent Exception to the Exciton Chirality Rule
Torsten Bruhn,Gennaro Pescitelli,Sandro Jurinovich,Anu Schaumlöffel,Franziska Witterauf,Johannes Ahrens,Martin Bröring,Gerhard Bringmann +7 more
TL;DR: This paper reports the first exception to this method for a simple biaryl system, in which a strong μm coupling hampers the use of the ECM, but this behavior should not be restricted to the BODIPY chromophore.
Journal ArticleDOI
Selective and Sensitive Superoxide Detection with a New Diselenide-Based Molecular Probe in Living Breast Cancer Cells
TL;DR: A diselenide-based BODIPY probe was prepared and was found to be sensitive and selective for superoxide in giving [-Se(O) Se(O)-] oxidation.
Journal ArticleDOI
Ethylene-Bridged Oligo-BODIPYs: Access to Intramolecular J-Aggregates and Superfluorophores
TL;DR: Cryptopyrrole-derived oligo-BODIPYs are characterized by a tight intramolecular arrangement triggering a dominant J-type excitonic coupling with red-shifts up to 45 nm, exceptionally small line widths of the absorption and emission event, outstandingly high attenuation coefficients, and quantum yields of up to unity.
Journal ArticleDOI
BOIMPYs: Rapid Access to a Family of Red-Emissive Fluorophores and NIR Dyes.
TL;DR: F Fluoride replacement by propynyl groups, various halogenations, as well as Knoevenagel-type condensations were applied to extend the versatility of these new photostable fluorophores, which were termed BOIMPYs.
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