2011
DOI: 10.1002/marc.201100008
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One‐Pot Synthesis of Pegylated Fluorescent Nanoparticles by RAFT Miniemulsion Polymerization Using a Phase Inversion Process

Abstract: Water-soluble and fluorescent core-shell nanoparticles (FNP) are synthesized in a miniemulsion reversible addition-fragmentation transfer (RAFT) polymerization and are shown to respond to pH. The particles are obtained from a hydrophilic PEO-b-PAA macromolecular RAFT agent which is block-extended with styrene and a fluorescent BODIPY monomer. A miniemulsion is then formed with the residual hydrophobic monomers. After completion of the polymerization, FNP of ≈ 60 nm in diameter are obtained. The fluorescence of… Show more

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Cited by 34 publications
(84 citation statements)
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“…Model analysis showed that Equation (3) can only be used for the green region (excellent control) in Figure 4b with still a limited impact of RAFT cross-termination and diffusional limitation on the RAFT process. The latter is consistent with the hypothesis of a degenerative RAFT system for the derivation of Equation (3). Outside the green region Equation (3) does not hold, due to a too high formation of RAFT cross-termination products, a too low RAFT exchange rate or the too strong decrease of the apparent RAFT addition rate coefficient because of diffusional limitations.…”
Section: Model-based Design Toward the Identification Of Optimal Raftsupporting
confidence: 81%
“…Model analysis showed that Equation (3) can only be used for the green region (excellent control) in Figure 4b with still a limited impact of RAFT cross-termination and diffusional limitation on the RAFT process. The latter is consistent with the hypothesis of a degenerative RAFT system for the derivation of Equation (3). Outside the green region Equation (3) does not hold, due to a too high formation of RAFT cross-termination products, a too low RAFT exchange rate or the too strong decrease of the apparent RAFT addition rate coefficient because of diffusional limitations.…”
Section: Model-based Design Toward the Identification Of Optimal Raftsupporting
confidence: 81%
“…It was found that the double sulfonated surfmer, in particular, was responsive to quenching by NaI or methyl viologen and could thus be of potential use as a sensor for the detection of fluorescence resonance energy transfer effects. [143] A α-vinyl-ω-amino-functionalized PEO macromonomer was used for the emulsion copolymerization with styrene, resulting in aminofunctional PS particles; the amine group at the particle surface was then used for the chelation of fluorescent Eu 3+ (Table 10, entry 4). The generated triblock copolymer self-assembled at basic pH and could be precipitated at an acidic pH.…”
Section: Surfactants With Optical Propertiesmentioning
confidence: 99%
“…12 For example, polymers with BODIPY fluorophores in their side chains can be assembled with relatively simple synthetic procedures to efficiently generate covalent constructs with a brightness that can also approach 10 4 mM −1 cm −1 . 23,24 Nonetheless, the hydrodynamic diameter ( d H ) of these fluorescent constructs, as well as those of their noncovalent counterparts, exceeds 50 nm in most instances. 1620 Such physical dimensions are more than 2 orders of magnitude greater than those of a single chromophore and can have detrimental effects on the supramolecular association of the targeting agent, as well as complicate administration in vivo and clearance from the organism.…”
Section: Introductionmentioning
confidence: 99%