Far-Red Emitting Fluorescent Dyes for Optical Nanoscopy: Fluorinated Silicon-Rhodamines (SiRF Dyes) and Phosphorylated Oxazines

Far-Red Emitting Fluorescent Dyes for Optical Nanoscopy: Fluorinated Silicon-Rhodamines (SiRF Dyes) and Phosphorylated Oxazines

Far‐red emitting fluorescent dyes for optical microscopy, stimulated emission depletion (STED), and ground‐state depletion (GSDIM) super‐resolution microscopy are presented. Fluorinated silicon–rhodamines (SiRF dyes) and phosphorylated oxazines have absorption and emission maxima at about λ≈660 and...

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Veröffentlicht in:Chemistry : a European journal 2015-09, Vol.21 (38), p.13344-13356
Hauptverfasser: Kolmakov, Kirill, Hebisch, Elke, Wolfram, Thomas, Nordwig, Lars A., Wurm, Christian A., Ta, Haisen, Westphal, Volker, Belov, Vladimir N., Hell, Stefan W.
Format: Artikel
Sprache:eng
Schlagworte:
Beams (radiation)
Chemistry
Depletion
Dyes
dyes/pigments
Emittance
Fluorescence
Fluorination
Imaging
Microscopy
Stimulated emission
structure-activity relationships
super-resolution microscopy
synthesis design
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Zusammenfassung:Far‐red emitting fluorescent dyes for optical microscopy, stimulated emission depletion (STED), and ground‐state depletion (GSDIM) super‐resolution microscopy are presented. Fluorinated silicon–rhodamines (SiRF dyes) and phosphorylated oxazines have absorption and emission maxima at about λ≈660 and 680 nm, respectively, possess high photostability, and large fluorescence quantum yields in water. A high‐yielding synthetic path to introduce three aromatic fluorine atoms and unconventional conjugation/solubilization spacers into the scaffold of a silicon–rhodamine is described. The bathochromic shift in SiRF dyes is achieved without additional fused rings or double bonds. As a result, the molecular size and molecular mass stay quite small (
ISSN:0947-6539
1521-3765
DOI:10.1002/chem.201501394