2015
DOI: 10.1111/php.12407
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Spectroscopic Properties of Morin in Various CH3OH–H2O and CH3CN–H2O Mixed Solvents

Abstract: The specific fluorescence properties of morin (3,2',4',5,7-pentahydroxyflavone) were studied in various CH3OH-H2O and CH3CN-H2O mixed solvents. Although the dihedral angle is large in the S0 state, morin has an almost planar molecular structure in the S1 state owing to the very low rotational energy barrier around the interring bond between B and the A, C ring. The excited state intramolecular proton transfer (ESIPT) at the S1 state cannot occur immediately after excitation, S1 → S0 fluorescence can be observe… Show more

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Cited by 9 publications
(38 citation statements)
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“…14,25,26 Although many experimental studies have been carried out for various flavonoids due to their strong antioxidant activities, only a few theoretical works regarding the optimal geometrical molecular structure at the various electronic states have been reported on API to date. 14,[25][26][27]43 The optimized dihedral angle of quercetin becomes close to 0 in the gas phase. This angle determines the position of the B ring relative to the γ-pyrone ring (rings A and C).…”
Section: Spectroscopic Properties Of Apigenin In Aot Micellesmentioning
confidence: 85%
See 4 more Smart Citations
“…14,25,26 Although many experimental studies have been carried out for various flavonoids due to their strong antioxidant activities, only a few theoretical works regarding the optimal geometrical molecular structure at the various electronic states have been reported on API to date. 14,[25][26][27]43 The optimized dihedral angle of quercetin becomes close to 0 in the gas phase. This angle determines the position of the B ring relative to the γ-pyrone ring (rings A and C).…”
Section: Spectroscopic Properties Of Apigenin In Aot Micellesmentioning
confidence: 85%
“…14,[25][26][27]43 The optimized dihedral angle of quercetin becomes close to 0 in the gas phase. 21,25,26 The intramolecular hydrogen bonding interaction will be a more important stability feature than steric hindrance in many flavonoid compounds. [43][44][45] It is helpful to further consider the geometrical molecular structure of API to understand its specific fluorescence properties.…”
Section: Spectroscopic Properties Of Apigenin In Aot Micellesmentioning
confidence: 85%
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