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Our research framework connects molecular-level interactions to macroscopic properties, enabling application-driven studies across soft materials.
Polymer Nanocomposites - Semiconductor Packaging Materials
Polymer Nanocomposites - Semiconductor Packaging Materials
Polymer nanocomposites (PNCs) represent a powerful materials platform for semiconductor packaging.
Enhancing thermal performance critically depends on particle dispersion, particle–polymer interfacial interactions, and rheological control.
Our fundamental research is closely aligned with these challenges, bridging soft matter physics with real-world applications.
Polymer Thin Films - Photoresist Heterogeneity
Polymer Thin Films - Photoresist Heterogeneity
Fundamental understanding of polymer thin-film dynamics serves as a basis for advanced photoresist materials.
Nanoscale confinement and interfacial effects govern PR performance and reliability.
Our work targets key industrial issues, including dynamic heterogeneity in photoresist systems.
2D Materials - Battery Slurry Dispersion and Rheology
2D Materials - Battery Slurry Dispersion and Rheology
Battery slurry performance is strongly governed by dispersion and rheology.
Our research focuses on understanding and controlling these factors through particle–polymer interactions and microstructural design.
We are also exploring dry-process rheology for advanced and scalable electrode fabrication.
Industry Collaboration – previous and ongoing
Industry Collaboration – previous and ongoing
Engaged in collaborative research with major industry partners across electronics, automotive, energy, and cosmetics sectors.
Samsung Electronics, Samsung Science & Technology Foundation, LG Energy Solution, Hyundai Motor Company, Hanwha Solutions, COSMAX
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