C5MPT Project: Design of High Capacity Hydrotalcite For CO2 Capture
C5MPT Project: Design of Sulfide Mineral Collectors Using Molecular Simulation
Profile on CME website
Dr. Choi’s main research area is physical properties of polymeric materials. One of his research interests is on developing both experimental and molecular simulation methods for studying solubility characteristics of non-ionic surfactants and miscibility of polymer blends in the liquid state. Another major focus of Dr. Choi's research is to study the correlation between the types of polyisocyanates and polyols used in urethane synthesis and the resulting multi-phase morphology. In particular, Dr. Choi has developed a novel experimental technique, based on inverse gas chromatography, to measure the three-dimensional solubility parameters of various non-ionic surfactants. He has also developed molecular modeling strategies, based on molecular mechanics models coupled with molecular dynamics, to compute the parameters of the same systems. In addition, Dr. Choi has applied the molecular mechanics/molecular dynamics techniques to study the molecular morphology as well as to compute the heats of mixing and Flory-Huggins interaction parameters of polyethylene/polypropylene as well as polyethylene blends. Dr. Choi’s current research interests are rheological and mechanical properties of polyethylene blends, melting point depression of semi-crystalline polymer blends and the structure-property relationships of urethane coatings.