Micro-flow assisted synthesis of fluorescent polymer nanoparticles with tuned size and surface properties

Visaveliya, Nikunjkumar; Hoffmann, Christian; Groß, Alexander; Täuscher, Eric; Ritter, Uwe; Koehler, J. Michael

doi:10.1515/ntrev-2015-0061

Cited by 16 publications

(53 citation statements)

References 61 publications

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“…According to DLS measurements, the particle size increased from 75.25 to 118.30 nm with 0.9 % SLS addition, and decreased to 75.18 nm with further increase of SLS concentration to 3.0%. It is known that the latex particles are formed by homogeneous nucleation mechanism at SLS concentration below critic micelle concentration [31]. According to this mechanism, SLS retained on monomer droplets can leave the droplet surface and then adsorb on the growing particle surface.…”

Section: Resultsmentioning

confidence: 99%

The Role of Sodium Lauryl Sulfate on the Film Properties of Styrene-Butyl Acrylate-Acrylic Acid Copolymer Latex

Eren

Solmaz

2020

Sakarya University Journal of Science

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In this study, the concentration effect of sodium lauryl sulfate (SLS) as a surfactant in the synthesis of styrene/acrylic acid/butyl acrylate copolymer (SAC) latex particles via seeded emulsion polymerization technique was investigated. Scanning electron microscopy (SEM), minimum film-forming temperature (MFFT), differential scanning calorimetry (DSC), dynamic light scattering (DLS), and thermal gravimetric analysis (TGA) techniques were used to explain the change on physicochemical properties and morphology. The main goal is to determine an optimal surfactant concentration to obtain latexes with low MFFT. DLS studies showed that the particle size decreases 118.30 to 75.18 nm with the increase of SLS concentration. MFFT of latexes decreased with increasing SLS concentration. From the TGA curves, it was found that all the SAC latex particles exhibit a three-step decomposition process. The observed single Tg values for SAC particles showed that the latexes were prepared successfully.

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Section: Resultsmentioning

confidence: 99%

The Role of Sodium Lauryl Sulfate on the Film Properties of Styrene-Butyl Acrylate-Acrylic Acid Copolymer Latex

Eren

Solmaz

2020

Sakarya University Journal of Science

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“…Second, the flow arrangement is highly promising for assembling nanoparticles of opposite surface charge in a highly uniform manner without irregular distribution. Here flow assembling between anionic flower‐shaped polymer nanoparticles (zeta potential 16 mV) [ 86 ] and cationic spherical polymer nanoparticles (zeta potential +23 mV) [ 99 ] are performed in the flow setup as shown in Figure A. In a simple microflow setup (top left of Figure 4A), both cationic and anionic nanoparticles were pumped through nearby two inlets and generated an integrated solution mixture that is flowing through the outlet to the knot mixture microchannel which is immersed in the water bath.…”

Section: Various Assemblies Driven By Electrostatic Interactionsmentioning

confidence: 99%

“…For instance, because of the strong binding affinity, poly‐L‐lysine and poly‐L‐glutamic acid link each other with the desired number of layers on the surface. [ 99,131 ] On the other hand, a simple, versatile, and efficient layer‐by‐layer functionalization can be achieved by oppositely charged polyelectrolytes. [ 127,132–134 ] Multi‐layered polyelectrolytes create soft and swellable interfaces that finally leads to a strong interaction with oppositely charged nanoparticles to form particles‐particles nanoassemblies.…”

Section: Various Assemblies Driven By Electrostatic Interactionsmentioning

confidence: 99%

Hierarchical Assemblies of Polymer Particles through Tailored Interfaces and Controllable Interfacial Interactions

Visaveliya

Köhler

2020

Adv Funct Materials

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Hierarchical assembly architectures of functional polymer particles are promising because of their physicochemical and surface properties for multi‐labeling and sensing to catalysis and biomedical applications. While polymer nanoparticles’ interior is mainly made up of the cross‐linked network, their surface can be tailored with soft, flexible, and responsive molecules and macromolecules as potential support for the controlled particulate assemblies. Molecular surfactants and polyelectrolytes as interfacial agents improve the stability of the nanoparticles whereas swellable and soft shell‐like cross‐linked polymeric layer at the interface can significantly enhance the uptake of guest nano‐constituents during assemblies. Besides, layer‐by‐layer surface‐functionalization holds the ability to provide a high variability in assembly architectures of different interfacial properties. Considering these aspects, various assembly architectures of polymer nanoparticles of tunable size, shapes, morphology, and tailored interfaces together with controllable interfacial interactions are constructed here. The microfluidic‐mediated platform has been used for the synthesis of constituents polymer nanoparticles of various structural and interfacial properties, and their assemblies are conducted in batch or flow conditions. The assemblies presented in this progress report is divided into three main categories: cross‐linked polymeric network's fusion‐based self‐assembly, electrostatic‐driven assemblies, and assembly formed by encapsulating smaller nanoparticles into larger microparticles.

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“…Specifically for many of the nanotechnological applications, polymer based nanoassemblies are of particular interest due to their novel as well as coupled properties . The swelling of polymer particles allows encapsulating as well as controlled release of therapeutic agents at desired sites for biomedical applications .…”

Section: Introductionmentioning

confidence: 99%

Interfacial‐Active Polymer Nanoparticles, Their Assemblies, and SERS Application

Visaveliya

Knauer

et al. 2017

Macro Chemistry & Physics

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In this work, surface‐active polymer nanoparticles as well as polymer–polymer and polymer–metal nanoassembly particles are synthesized, and different parameters such as their size, morphologies, and assembling strength are studied. Nanoassembly particles are attractive because of the coupled properties with a large surface to volume ratio. A key challenge is to produce the core–shell polymer nanoparticles via single‐step processes. To address this concern, here, microfluidics approach and precise interfacial reaction strategies are used, and hence different types of surface layered polymer nanoparticles are obtained in one‐step processes. An inner core material is hydrophobic, whereas a hydrophilic surface layer (in situ formed during the polymerization process) swells in the aqueous environment. Moreover, three different reaction setups (batch, flow, and in situ) are applied in order to architect the nanoassembling hierarchical structures via layer‐by‐layer strategy. On the other side, polymer–metal nanoassembly particles as well as metal catalyzed metal deposited four layered nanoassembly particles of tuned size and compositions are produced. It is shown that these particles can be used as nanosensor particles for surface‐enhanced Raman spectroscopy.

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Micro-flow assisted synthesis of fluorescent polymer nanoparticles with tuned size and surface properties

Cited by 16 publications

References 61 publications

The Role of Sodium Lauryl Sulfate on the Film Properties of Styrene-Butyl Acrylate-Acrylic Acid Copolymer Latex

The Role of Sodium Lauryl Sulfate on the Film Properties of Styrene-Butyl Acrylate-Acrylic Acid Copolymer Latex

Hierarchical Assemblies of Polymer Particles through Tailored Interfaces and Controllable Interfacial Interactions

Interfacial‐Active Polymer Nanoparticles, Their Assemblies, and SERS Application

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