Improved Antenna Effect of Terbium(III)-Cored Dendrimer Complex and Green-Luminescent Hydrogel by Radical Copolymerization

Improved Antenna Effect of Terbium(III)-Cored Dendrimer Complex and Green-Luminescent Hydrogel by Radical Copolymerization

This study explored practical applications of the unique green fluorescence of terbium(III)-cored poly(benzyl ether) dendrimer complexes for luminescence polymeric materials. At first, to maximize the fluorescence ability, we examined the influence of the isomerism in the dendron skeleton, both at t...

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Bibliographic Details
Published in:Chemistry of materials Vol. 16; no. 11; pp. 2282 - 2286
Main Authors: Kawa, Manabu, Takahagi, Takayuki
Format: Journal Article
Language:English
Published: Washington, DC American Chemical Society 01-06-2004
Subjects:
Applied sciences
Chemistry
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Exact sciences and technology
General and physical chemistry
Physicochemistry of polymers
Physics
Polymers
Inorganic compounds
Organic compounds
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Summary:This study explored practical applications of the unique green fluorescence of terbium(III)-cored poly(benzyl ether) dendrimer complexes for luminescence polymeric materials. At first, to maximize the fluorescence ability, we examined the influence of the isomerism in the dendron skeleton, both at the focal point and the hyperbranch repeating unit. Next, a 4-vinylphenyl group was successfully introduced at the terminal of the dendron subunit for radical polymerization. A 3,4-dioxybenzoate moiety for the focal point of the dendron gave stronger fluorescence than the usual 3,5-isomer; however, the authentic 3,5-dioxybenzyl ether moiety appeared the best hyperbranch repeating unit for the fluorescence ability. The terminal vinyl groups enabled the copolymerization of the terbium(III)-cored dendrimer complex with N-isopropylacrylamide, resulting in a green-fluorescent, clear hydrogel. The hydrogel showed a gel phase transition at 33−35 °C to exhibit temperature-induced switching in the opacity.
Bibliography:ark:/67375/TPS-2GJMSVN0-9
istex:69510A5F5F33BD0402FA691FD4B5016400648520
ISSN:0897-4756
1520-5002
DOI:10.1021/cm034873e