Our Vision
Designing polymer systems that integrate performance, durability, and circularity.
We establish processing–structure–property–performance relationships to guide the design of polymer systems for applications under extreme conditions. These systems are engineered to achieve high mechanical performance, enabling reliable operation over extended service lifetimes. At end-of-life, they are designed for reprocessability, repair, or biodegradability, supporting a circular materials economy.
Polymer networks and composites
We advance the design of polymer networks and composites through molecular architecture, topology, and filler interactions to achieve high mechanical performance, including fracture toughness, fatigue resistance, and abrasion resistance.
Relevant Publications
Amplifying toughness in silica reinforced natural rubber by preserving long chains, Proceedings of the National Academy of Sciences, 123, e2530834123 (2026).
Resolving toughness-modulus conflict in carbon black reinforced natural rubber by preserving long chains. Soft Matter, 22, 518-531 (2025).
Natural rubber with high resistance to crack growth. Nature Sustainability, 8, 692–701 (2025).
PNAS, 2026
Dynamic polymers
We develop dynamic polymer systems based on supramolecular interactions and dynamic covalent bonds, enabling reversible bond formation and rearrangement. These systems are designed to enable self-healing and reprocessability without compromising mechanical integrity.
Relevant Publications
Toughening Self-healing Elastomers with Chain Mobility. Advanced Science, 11, 2308154 (2024).
Rugged Soft Robots using Tough, Stretchable, and Self‐Healable Adhesive Elastomers. Advanced Functional Materials, 31, 2103097 (2021).
Adv. Funct. Mater., 2021