Eriko Azuma scite author profile

Eriko Azuma

5Publications

68Citation Statements Received

66Citation Statements Given

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134

Affiliations

Kyoto Prefectural University

Publications

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Exhaustive Syntheses of Naphthofluoresceins and Their Functions

et al. 2012

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Naphthofluorescein and/or seminaphthofluorescein derivatives possessing the additional benzene units to one or both sides of fluorescein were exhaustively constructed through Friedel-Crafts type reactions between corresponding aroylbenzoic acids and dihydroxynaphthalenes. Compound 4 works as a one-dye pH indicator, which shows red in strong acid condition and blue in basic solution. Compound 23 (diacetate of compound 4) shows good transitivity to the HEK 293 cells and acts as a fluorescent pigment for the living cell imaging. Compounds 5, 6, and 9 show fluorescent emission in the NIR region (>700 nm) and imply the potentialities of NIR fluorescent probes.

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Alternative simple and effective synthesis of (di)benzoxanthones and their functions toward fluorescent dyes

2013

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Fluorescent Dyes with Directly Connected Xanthone and Xanthene Units

et al. 2015

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Unexpected dimerization of a methoxymethyl-protected xanthone occurred upon treatment with an aryl lithium reagent generated from 2-bromo-1,3-dimethylbenzene and n-butyllithium. The hydrogen between two directing ethereal oxygen atoms was not abstracted, but that adjacent to the carbonyl group was removed to afford a dimeric compound containing two directly connected fluorescent xanthone and xanthene units. Starting from this discovery, three dimeric dyes were constructed, and their optical properties were examined. Although the two fluorescent units were orthogonal in each dye, efficient energy transfer was observed in dimeric dye 16 in three solvent systems. In contrast, solvent-dependent energy transfer was detected for another dimeric dye, 5. After close investigation, we found that the orientation factor (κ) is the main factor influencing Förster resonance energy transfer in these dyes.

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Formation of Phenalenone Skeleton by an Unusual Rearrangement Reaction

et al. 2017

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The frame rearrangement reaction of dinaphthyl ketones, possessing hydroxy groups at appropriate positions, into phenalenone derivatives under acidic conditions was discovered serendipitously. Although this rearrangement had limited scope, its mechanism was unusual, involving the division of naphthalene rings into one phenalenone ring and one benzene ring. The reaction mechanism was elucidated by direct determination of intermediate structures using H NMR measurements. The generated phenalenones are expected to be key intermediates toward natural products and functional materials.

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Synthesis and Optical Properties of L-Shaped Dinaphthofluoresceins with Two Peripheral Hydroxy Groups

et al. 2020

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Eriko Azuma

Exhaustive Syntheses of Naphthofluoresceins and Their Functions

Alternative simple and effective synthesis of (di)benzoxanthones and their functions toward fluorescent dyes

Fluorescent Dyes with Directly Connected Xanthone and Xanthene Units

Formation of Phenalenone Skeleton by an Unusual Rearrangement Reaction

Synthesis and Optical Properties of L-Shaped Dinaphthofluoresceins with Two Peripheral Hydroxy Groups

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