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Brilliant BODIPY-fluorene Copolymers With Dispersed Absorption and Emission Maxima.


ABSTRACT: Four systems 1a - d were prepared to investigate the optical properties of copolymers comprised of polyfluorene doped with BODIPY-based fluors. The underlying hypothesis was energy harvested via the strong absorptivity of the major component, fluorine, would be primarily emitted from the BODIPY parts at much higher wavelengths. Optimization of the polymerization process as a function of the mol % of BODIPY, indicated that the brightest polymers were formed when approximately 4 fluorene units were co-polymerized with every BODIPY precursor. These polymers were cast into nanoparticles of ca 40 nm diameter. Treatment of clone 9 rat liver cells with suspensions of these particles resulted in uptake without encapsulation in lysosomes, or organelle targeting.

SUBMITTER: Thivierge C 

PROVIDER: S-EPMC3145357 | biostudies-literature | 2011 May

REPOSITORIES: biostudies-literature

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Brilliant BODIPY-fluorene Copolymers With Dispersed Absorption and Emission Maxima.

Thivierge Cliferson C   Loudet Aurore A   Burgess Kevin K  

Macromolecules 20110501 10


Four systems 1a - d were prepared to investigate the optical properties of copolymers comprised of polyfluorene doped with BODIPY-based fluors. The underlying hypothesis was energy harvested via the strong absorptivity of the major component, fluorine, would be primarily emitted from the BODIPY parts at much higher wavelengths. Optimization of the polymerization process as a function of the mol % of BODIPY, indicated that the brightest polymers were formed when approximately 4 fluorene units wer  ...[more]

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