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Effect of <scp>pH</scp> and zeta potential of Pickering stabilizing magnetite nanoparticles on the features of magnetized polystyrene microspheres

Ahmed I. A. Abd El‐Mageed, Ahmed Esmail Shalan, Lamiaa A. Mohamed, Hisham Essawy, Fouad Taha, Amro K. F. Dyab

2020Polymer Engineering and Science23 citationsDOI

Abstract

Abstract Styrene as a monomer was emulsified in water using several magnetite nanoparticles concentration and pH values. Emulsified styrene drops were used as templates for polymerization, in presence of water soluble free radical initiator, and formation of composite particles. Styrene template drops stabilization was verified by light as well as scanning electron microscopy imaging, which ensured the participation of the particles in building up a mechanical barrier to stop oil drops coalescence. Furthermore, the produced polystyrene composites were strongly attracted to an external magnet. The difference in particles size as a function of pH was elucidated using zeta potential measurements, which indicated dominance of pH on the hydrophilicity of the particles and consequently the extent of emulsification, which in turn affected the size of the obtained microspheres. Under some circumstances, capsules were formed instead of particles. Thereby, it can be concluded that the magnetic microspheres are optimally formed at pH 2.3 independently of the magnetite content used.

Topics & Concepts

Materials sciencePolystyreneStyreneZeta potentialChemical engineeringCoalescence (physics)MagnetiteFerrofluidScanning electron microscopeDispersion polymerizationCopolymerComposite numberCationic polymerizationMagnetic nanoparticlesNanoparticlePickering emulsionPolymer chemistryComposite materialNanotechnologyPolymerMagnetic fieldMetallurgyPhysicsQuantum mechanicsAstrobiologyEngineeringPickering emulsions and particle stabilizationMicro and Nano RoboticsSurfactants and Colloidal Systems