2015
DOI: 10.1002/chem.201500355
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Aminorhodamine (ARh): A Bichromophore with Three Emission Bands in Low Temperature Glasses

Abstract: At first glance, aminorhodamine (ARh) is a typical pH responsive fluorescent, rhodamine-type dye. However, hidden under the typical rhodamine absorption band, ARh has another electronic transition of similar energy, but polarized orthogonal to that of the rhodamine chromophore. This transition-assigned to an arylpyrylium type chromophore contained in the system-is responsible for the sensor action of the dye. ARh is non-fluorescent, while protonation of a donor amino group turn on a strong rhodamine-type emiss… Show more

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Cited by 7 publications
(32 citation statements)
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“…Radically new fluorophores are rarely found, and most useful dyes are based on known molecular units such as rhodamine, fluorescein, borondipyrrole, cyanine, etc . We recently reanalyzed the electronic structure and pH switching of aminorhodamine ( ARh , Figure ) based on the discovery of a hidden electronic transition, corresponding to an optically induced charge shift in an arylpyrylium chromophore integrated with the rhodamine chromophore . ARh can best be described as an arylpyrylium/rhodamine bichromophore system.…”
Section: Figurementioning
confidence: 99%
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“…Radically new fluorophores are rarely found, and most useful dyes are based on known molecular units such as rhodamine, fluorescein, borondipyrrole, cyanine, etc . We recently reanalyzed the electronic structure and pH switching of aminorhodamine ( ARh , Figure ) based on the discovery of a hidden electronic transition, corresponding to an optically induced charge shift in an arylpyrylium chromophore integrated with the rhodamine chromophore . ARh can best be described as an arylpyrylium/rhodamine bichromophore system.…”
Section: Figurementioning
confidence: 99%
“…We set out to synthesize this compound as we expected that beneficial properties of ARh would be obtained, but with a response in a more relevant pH‐range owing to the increased electron density of the peripheral phenyl substituent. Tetramethoxy‐aminorhodamine ( TMARh , Figure ) was synthesized in a manner different from the usual condensation between phthalic anhydride and methoxy aniline used to make rhodamines, including ARh . Despite the orthogonal orientation of the aminoaryl arm, TMARh proved to be a true bichromophore.…”
Section: Figurementioning
confidence: 99%
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