Won Tae Joe scite author profile

Sulfur-rich materials have recently attracted keen interest for their potentials in optical, electrochemical, and pesticidal applications as well as their utility in dynamic covalent bond chemistry. Many sulfur-rich polymers, however, are insoluble and processing methods are therefore very limited. The synthesis and characterization of water-dispersible polymer nanoparticles (NPs) with the sulfur content exceeding 75% by weight, obtained from the interfacial polymerization between 1,2,3-trichloropropane and sodium polysulfide in water is reported here. The interfacial polymerization yields well-defined sulfur-rich NPs in the presence of surfactants, which are capable of serving a dual role as a phase transfer catalyst on top of emulsifiers. Such dual role allows for the control of the product NP size by varying its concentration. The surfactants can be easily removed by centrifugation and redispersion in water is also reported here. The resulting sulfur-rich NPs are characterized through elemental analysis, dynamic light scattering, ζ-potential measurements, and scanning electron microscopy.

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A reduced order electrochemical and thermal model for a pouch type lithium ion polymer battery with LiNixMnyCo1−x−yO2/LiFePO4 blended cathode

Choe

Joe

2015

Journal of Power Sources

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Optimized Waveforms for Feedback Control of Vortex Shedding

Joe

Colonius

MacMynowski

2010

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Won Tae Joe

New fast charging method of lithium-ion batteries based on a reduced order electrochemical model considering side reaction

Modeling and analysis of LiFePO4/Carbon battery considering two-phase transition during galvanostatic charging/discharging

High Sulfur Content Polymer Nanoparticles Obtained from Interfacial Polymerization of Sodium Polysulfide and 1,2,3‐Trichloropropane in Water

A reduced order electrochemical and thermal model for a pouch type lithium ion polymer battery with LiNixMnyCo1−x−yO2/LiFePO4 blended cathode

Optimized Waveforms for Feedback Control of Vortex Shedding

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