His primary scientific interests are in Polymer chemistry, Polymer, Copolymer, Polymerization and Membrane. His Polymer chemistry study incorporates themes from Arylene, Isocyanate and Anionic addition polymerization, Living anionic polymerization, Monomer. His work on Polystyrene as part of general Polymer research is frequently linked to Reactive-ion etching, bridging the gap between disciplines.
His studies deal with areas such as Ultimate tensile strength, Monolayer, Polymeric nanoparticles and Polyethylene as well as Copolymer. The various areas that Jae-Suk Lee examines in his Polymerization study include Reactivity, Pyrazine, Regioselectivity and Palladium. Jae-Suk Lee usually deals with Membrane and limits it to topics linked to Nafion and Chemical engineering, Polyvinyl chloride, Direct methanol fuel cell, End-group and Solubility.
Jae-Suk Lee mostly deals with Polymer chemistry, Copolymer, Polymer, Chemical engineering and Polymerization. Jae-Suk Lee interconnects Arylene, Isocyanate and Anionic addition polymerization, Living anionic polymerization, Monomer in the investigation of issues within Polymer chemistry. His Arylene study combines topics in areas such as Ether, Membrane, Thermal stability and End-group.
His research in Copolymer intersects with topics in Nanoparticle, Micelle and Molar mass distribution. His Polymer study contributes to a more complete understanding of Organic chemistry. His studies in Chemical engineering integrate themes in fields like Electrolyte, Oxide, Emulsion polymerization and Thin film.
Jae-Suk Lee mainly focuses on Copolymer, Polymer chemistry, Chemical engineering, Polymerization and Polymer. Jae-Suk Lee has researched Copolymer in several fields, including Polystyrene, Optoelectronics, Dispersity and Silsesquioxane. The study incorporates disciplines such as Macromonomer, Monomer, Isocyanate, Ring-opening metathesis polymerisation and Living anionic polymerization in addition to Polymer chemistry.
His Chemical engineering study integrates concerns from other disciplines, such as Oxide, Emulsion polymerization, Conductivity, Ion and Photoluminescence. Jae-Suk Lee has included themes like Acrylate, Soft segment and Photonic crystal in his Polymerization study. Jae-Suk Lee combines subjects such as Supramolecular chemistry, Molecule, Hydrogen bond, Electrolyte and Thio- with his study of Polymer.
Jae-Suk Lee mainly investigates Chemical engineering, Copolymer, Polymerization, Polymer chemistry and Metathesis. His work carried out in the field of Chemical engineering brings together such families of science as Electrolyte, Phenylene, Photoluminescence and Conductivity. His Copolymer research is multidisciplinary, incorporating perspectives in Polystyrene and Polycarbonate.
His biological study deals with issues like Dispersity, which deal with fields such as Nanoparticle, Full width at half maximum, Solution process, Acrylate and Methyl methacrylate. His Polymer chemistry research is multidisciplinary, relying on both Fast ion conductor, Phosphazene, Base and Trifluoroacetic acid. His Polymer research includes themes of Ether, Arylene and Sulfone.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Electro-oxidation of methanol and formic acid on PtRu and PtAu for direct liquid fuel cells
Jong Ho Choi;Kyoung Jin Jeong;Yujung Dong;Jonghee Han.
Journal of Power Sources (2006)
Polymerization of monomers containing functional silyl groups. 5. Synthesis of new porous membranes with functional groups
Jae Suk Lee;Akira Hirao;Seiichi Nakahama.
Surface properties of fluorinated oxetane polyol modified polyurethane block copolymers
Yu-Seung Kim;Jae-Suk Lee;Qing Ji;James E McGrath.
Polymerization of monomers containing functional silyl groups. 7. Porous membranes with controlled microstructures
Jae Suk Lee;Akira Hirao;Seiichi Nakahama.
End-Group Cross-Linked Poly(arylene ether) for Proton Exchange Membranes
Kwan-Soo Lee;Myung-Hwan Jeong;Jung-Pil Lee;Jae-Suk Lee.
Endothelial cell adhesion to ion implanted polymers
Y. Suzuki;M. Kusakabe;J.-S. Lee;M. Kaibara.
Nuclear Instruments & Methods in Physics Research Section B-beam Interactions With Materials and Atoms (1992)
A PtAu Nanoparticle Electrocatalyst for Methanol Electro- oxidation in Direct Methanol Fuel Cells
Jong Ho Choi;Kyung Won Park;In Su Park;Keon Kim.
Journal of The Electrochemical Society (2006)
Polyviologen Hydrogel with High-Rate Capability for Anodes toward an Aqueous Electrolyte-Type and Organic-Based Rechargeable Device
Naoki Sano;Wataru Tomita;Shu Hara;Cheong Min Min.
ACS Applied Materials & Interfaces (2013)
Synthesis of poly(n-hexyl isocyanate) by controlled anionic polymerization in the presence of NaBPh4
Yeong-Deuk Shin;Sun-Young Kim;Jun-Hwan Ahn;Jae-Suk Lee.
Low-loss fluorinated poly(arylene ether sulfide) waveguides with high thermal stability
Jae-Wook Kang;Jae-Pil Kim;Won-Young Lee;Joon-Sung Kim.
Journal of Lightwave Technology (2001)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: