Synthesis of azide‐functionalized nanoparticles by microemulsion polymerization and surface modification by click chemistry in aqueous medium

Ouadahi, Karima; Allard, Emmanuel; Oberleitner, Birgit; Larpent, Chantal

doi:10.1002/pola.25035

Cited by 26 publications

(40 citation statements)

References 78 publications

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“…The dyes have been embedded into NPs either during polymerization or after particle formation through swelling procedures . Moreover, covalent linkage to reactive groups inside and on the particle surface has also been performed …”

Section: Synthesis Of Dye‐loaded Polymer Npsmentioning

confidence: 99%

Fluorescent Polymer Nanoparticles Based on Dyes: Seeking Brighter Tools for Bioimaging

Reisch

Klymchenko

2016

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Speed, resolution and sensitivity of today's fluorescence bioimaging can be drastically improved by fluorescent nanoparticles (NPs) that are many-fold brighter than organic dyes and fluorescent proteins. While the field is currently dominated by inorganic NPs, notably quantum dots (QDs), fluorescent polymer NPs encapsulating large quantities of dyes (dye-loaded NPs) have emerged recently as an attractive alternative. These new nanomaterials, inspired from the fields of polymeric drug delivery vehicles and advanced fluorophores, can combine superior brightness with biodegradability and low toxicity. Here, we describe the strategies for synthesis of dye-loaded polymer NPs by emulsion polymerization and assembly of pre-formed polymers. Superior brightness requires strong dye loading without aggregation-caused quenching (ACQ). Only recently several strategies of dye design were proposed to overcome ACQ in polymer NPs: aggregation induced emission (AIE), dye modification with bulky side groups and use of bulky hydrophobic counterions. The resulting NPs now surpass the brightness of QDs by ≈10-fold for a comparable size, and have started reaching the level of the brightest conjugated polymer NPs. Other properties, notably photostability, color, blinking, as well as particle size and surface chemistry are also systematically analyzed. Finally, major and emerging applications of dye-loaded NPs for in vitro and in vivo imaging are reviewed.

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Section: Synthesis Of Dye‐loaded Polymer Npsmentioning

confidence: 99%

Fluorescent Polymer Nanoparticles Based on Dyes: Seeking Brighter Tools for Bioimaging

Reisch

Klymchenko

2016

Small

531

509

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“…Recently, it was shown that the yield for surface modifications of azide-functionalised nanoparticles with alkyne modified fluorescein by Cu-catalysed click chemistry was dependent on the polymerisation process, surfactants used and accessible azide groups. 28 Furthermore, the 40 catalysts components caused extensive particle aggregation or even decomposition. 29 In addition, oxidation of biological substrates was also observed with Cu-catalysed click chemistry due to hydrogen peroxide and superoxide radical produced by copper ion mediated catalytic oxidation of sodium ascorbate by 45 molecular oxygen.…”

Section: Resultsmentioning

confidence: 99%

Palladium-mediated bioorthogonal conjugation of dual-functionalised nanoparticles and their cellular delivery

et al. 2013

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EDGE ARTICLEAndrew J. deMello, Joshua B. Edel et al. Rapid cell extraction in aqueous twophase microdroplet systems PERSPECTIVE Barry M. Trost et al. Catalytic asymmetric allylic alkylation employing heteroatom nucleophiles: a powerful method for C-X bond formationNanoparticles have gained considerable significance in the life sciences due to their ability to be internalised by living cells and the relative ease with which they can be functionalised with cargos ranging from molecular sensors to biomacromolecules. However, the scope of available bioconjugation methods is limited and new bioorthogonal methods are much sought after. Herein, we present dual 10 functionalised (HO) 2 B/H 2 N-polymeric nanoparticles which can be conjugated via amide bond formation and/or Pd-mediated Suzuki-Miyaura cross-coupling in a chemoselective and bioorthogonal manner. These dual-functionalised particles were found to be efficiently taken up by mammalian cells without toxicity and were successfully employed in the cellular delivery and intracellular release of a "turn-on" molecular probe thereby demonstrating the potential use of the new particles for various chemical biology 15 applications. Journal Name, [year], [vol], 00-00 | 5 a) Schematic presentation of the designed "turn-on" probe b) Chemoselective dual-functionalisation of particles via amide bond formation and subsequent Suzuki-Miyaura cross coupling 5 Scheme 3. Dual-functionalised particles and intracellular fluorescein release: (a) Probe design and the mechanism of intracellular cargo release and fluorescence "turn-on"; (b) dual-functionalisation of particles by conjugation of Cy5 via amide formation and subsequent Suzuki-Miyaura cross coupling of iodo-aryl probes onto particles. 13 = Cytosol targeted probe and 15 = nucleus targeted probe (14 and 16 are negative control probes with non-cleavable linkages).

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“…Many new methods have been employed to prepare polymer particles with a welldefined size, e.g., dispersion polymerization (1, 2), emulsion polymerization (3,4), miniemulsion polymerization (5,6), microemulsion (7,8), etc. Among them, dispersion polymerization is a more attractive alternative for the synthesis of dispersed polymeric particles of micron size in a single step.…”

Section: Introductionmentioning

confidence: 99%

Living radical polymerization of polyacrylamide with submicrometer size by dispersion polymerization

Wang

Hou

et al. 2015

E-Polymers

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Atom transfer radical dispersion polymerization of acrylamide was successfully performed in ethyl acetate/ethanol with 2,2-azobisisobutyronitrile/FeCl 2 /succinic acid as the initiating system. Polyvinylpyrrolidone was used as the stabilizer. The "living" characteristics of the polymerization were studied. A linear relationship of ln([M] 0 /[M]) vs. polymerization time was obtained. Furthermore, the molecular weight increased with monomer conversion and agreed well with the theoretical values with a narrow molecular weight distribution ( < 1.5). Sizecontrolled submicrometer polyacrylamide (PAM) was obtained and characterized by transmission electron microscopy. The chemical structure of the obtained PAM was characterized by 1 H NMR. The living characteristics were confirmed by chain extension experiment.

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Synthesis of azide‐functionalized nanoparticles by microemulsion polymerization and surface modification by click chemistry in aqueous medium

Cited by 26 publications

References 78 publications

Fluorescent Polymer Nanoparticles Based on Dyes: Seeking Brighter Tools for Bioimaging

Fluorescent Polymer Nanoparticles Based on Dyes: Seeking Brighter Tools for Bioimaging

Palladium-mediated bioorthogonal conjugation of dual-functionalised nanoparticles and their cellular delivery

Living radical polymerization of polyacrylamide with submicrometer size by dispersion polymerization

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