Genre
- Journal Article
Compound 2, which was designed to act as a fluorescent sensor for calcium according to the PET (Photoinduced Electron Transfer) principle, shows a relatively small Ca2+-induced fluorescence enhancement factor (FE) of 1.8 whereas its close relative 1 is known to display a far higher FE value of 16. Though designed as fluorescent PET sensors for solvent polarity, compounds 5 and 6 also show negligible fluorescence enhancement as their environments are made progressively less polar even though their relatives 3 and 4 show limiting FE values of 53 and 3, respectively. Indeed, 3 and 4 are useful since they are fluorescent sensors for solvent polarity without being affected by Bronsted acidity. The poor sensory performance of 2, 5, and 6 relative to their cousins is attributed to the presence of an oxygen proximal to the 9-position of an anthracene unit, which opens up a CT (charge transfer) channel. Normal PET sensing service is resumed when the offending oxygen is deleted.
Queens Univ Belfast, Sch Chem, Belfast, Antrim, North Ireland. Robert Gordon Univ, Sch Pharm, Aberdeen AB9 1FR, Scotland. Univ Bordeaux 1, CNRS, UMR 5802, Lab Chim Organ & Organomet, Talence, France. Monash Univ, Dept Biochem & Mol Biol, Phospha(TRUNCATED)
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SPRINGER/PLENUM PUBLISHERS
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Source type: Electronic(1)
Language
- English
Subjects
- PET
- DEPENDENT FLUORESCENCE
- SWITCHES
- calcium
- TRANSFER SENSORS
- HIGH
- ion sensors
- SYSTEMS
- FLUORESCENT SENSORS
- indicators
- polarity sensors
- CHARGE-TRANSFER
- Chemistry, Analytical
- SOLVENT POLARITY
- electron transfer
- selectivity
- DESIGN
- Biochemical Research Methods