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The first comparative study of the ability of different hydrophilic groups to water-solubilise fluorescent BODIPY dyesElectronic supplementary information (ESI) available: Characterisation/spectral data for compounds 1-12. See DOI: 10.1039/c3nj41093e
A green-emitting BODIPY dye carrying a carboxylic acid at the meso -phenyl ring was derivatised with a set of eight different hydrophilic groups neutral, negatively- or positively-charged at physiological pH. The determination of both partition coefficient (log P ) and fluorescence quantum yield ( Φ...
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creator | Romieu, Anthony Massif, Cédrik Rihn, Sandra Ulrich, Gilles Ziessel, Raymond Renard, Pierre-Yves |
description | A green-emitting BODIPY dye carrying a carboxylic acid at the
meso
-phenyl ring was derivatised with a set of eight different hydrophilic groups neutral, negatively- or positively-charged at physiological pH. The determination of both partition coefficient (log
P
) and fluorescence quantum yield (
Φ
F
) for each polar BODIPY dye allows building the first water-solubility scale for such fluorescent organic materials. This valuable tool can be used to select the most suitable molecular candidate for converting a hydrophobic BODIPY scaffold into a water-soluble and brightly fluorescent dye, and for tuning its net electric charge/polarity according to the biolabelling application targeted for this specific fluorescent marker.
The first water-solubility scale of a library of green-emitting BODIPY dyes intended for biomolecular labelling applications. |
doi_str_mv | 10.1039/c3nj41093e |
format | article |
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meso
-phenyl ring was derivatised with a set of eight different hydrophilic groups neutral, negatively- or positively-charged at physiological pH. The determination of both partition coefficient (log
P
) and fluorescence quantum yield (
Φ
F
) for each polar BODIPY dye allows building the first water-solubility scale for such fluorescent organic materials. This valuable tool can be used to select the most suitable molecular candidate for converting a hydrophobic BODIPY scaffold into a water-soluble and brightly fluorescent dye, and for tuning its net electric charge/polarity according to the biolabelling application targeted for this specific fluorescent marker.
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meso
-phenyl ring was derivatised with a set of eight different hydrophilic groups neutral, negatively- or positively-charged at physiological pH. The determination of both partition coefficient (log
P
) and fluorescence quantum yield (
Φ
F
) for each polar BODIPY dye allows building the first water-solubility scale for such fluorescent organic materials. This valuable tool can be used to select the most suitable molecular candidate for converting a hydrophobic BODIPY scaffold into a water-soluble and brightly fluorescent dye, and for tuning its net electric charge/polarity according to the biolabelling application targeted for this specific fluorescent marker.
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meso
-phenyl ring was derivatised with a set of eight different hydrophilic groups neutral, negatively- or positively-charged at physiological pH. The determination of both partition coefficient (log
P
) and fluorescence quantum yield (
Φ
F
) for each polar BODIPY dye allows building the first water-solubility scale for such fluorescent organic materials. This valuable tool can be used to select the most suitable molecular candidate for converting a hydrophobic BODIPY scaffold into a water-soluble and brightly fluorescent dye, and for tuning its net electric charge/polarity according to the biolabelling application targeted for this specific fluorescent marker.
The first water-solubility scale of a library of green-emitting BODIPY dyes intended for biomolecular labelling applications.</abstract><doi>10.1039/c3nj41093e</doi><tpages>12</tpages></addata></record> |
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source | Royal Society of Chemistry |
title | The first comparative study of the ability of different hydrophilic groups to water-solubilise fluorescent BODIPY dyesElectronic supplementary information (ESI) available: Characterisation/spectral data for compounds 1-12. See DOI: 10.1039/c3nj41093e |
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