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Key Research Areas
- Synthesis of Low-Dimensional Nanomaterials and Their Applications
- Development of Functional Composite Materials Incorporating Nanocarbons
- Next-Generation Carbon Fibers
- Smart Polymer Materials
- Development for the process technology of composite material for the structure
- Techniques for Recycling Composite Materials
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Smart Polymer Materials
- Synthesis of Low-Dimensional Nanomaterials and Their Applications
- Development of Functional Composite Materials Incorporating Nanocarbons
- Next-Generation Carbon Fibers
- Smart Polymer Materials선택됨
- Development for the process technology of composite material for the structure
- Techniques for Recycling Composite Materials
Smart Polymer Materials
- Smart polymers with shape memory, self-healing, and self-protecting properties
- Development of self-diagnostic smart polymers with mechanophores
- Closed-loop recyclable dynamic covalent crosslinked polymers
- Design and synthesis of super engineering plastics
Extensive Research Areas
- Synthesis of smart polymer composites with shape memory, self-healing, and self-protecting properties
- Research on self-diagnostic smart materials
- Structure-property relationships of polymer composite materials
- Design and synthesis of super engineering plastics
- Closed-loop recyclable dynamic covalent crosslinked polymers
- Synthesis and surface modification of organic or inorganic materials using plasma and laser technology.
Key Research Outcomes
- Bio-derived flame-retardant resin-based carbon fiber reinforced plastics
- Synthesis of eco-friendly polymers for closed-loop recycling
- Manufacturing technology for biomass-based flame-retardant materials
- Surface and interface control for adhesion improvement of dissimilar materials
- Development of latent curing agents for low-curing temperature and rapid curing
- Stabilization of Carbon fiber by plasma
- Surface modification of filler for improving properties of composite materials
- Synthesis of biodegradable polymers