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1. Smart polymers processing
-  Micro/nanostructures made of shape memory polymers
-  Multi-functional biomimic architecture processing
2. Polymer foams processing
-  Foams for superior sound absorption
-  Eco-friendly composite foams for thermal insulation
3. Polymeric metamaterials processing
-  Hydrodynamic metamaterials for flow control
-  Smart metamaterials
4. Bioprocessing with polymers
-  Tissue-hydrogel hybrids
-  Scalable, high-throughput tissue imaging and phenotyping

1. Papers
- “Integrated platform for multi-scale molecular imaging and phenotyping of the human brain”, BioRxiv 484171 (2024)
- “Hydrodynamic Metamaterial Cloak for Drag-Free Flow”, Physical Review Letters 123, 074502 (2019)
- “Carbon Nanotube Embedded Nanostructure for Biometrics”, ACS Applied Materials & Interfaces 9(51), 44724-44731 (2017)
- “Smart Noise Control Using Shape Memory Sound Absorber”, Advanced Materials Technologies 4(2), 1800410 (2019)
- “Shape memory polymeric composites embedded with hybrid ceramic microparticles”, Smart Materials and Structures 29, 055037 (2020)

Here at our research team, we are dedicated to pioneering the development of cutting-edge polymeric materials and systems that push the boundaries of what is achievable. Our commitment to innovation, with multi-scale design and precision processing of micro/nanoscale structures, drives us to produce polymeric materials and systems that redefine industries and unlock exciting possibilities for the future. We employ multidisciplinary approach to engineer cutting-edge polymeric materials and systems. Drawing upon the foundational elements of modern engineering, chemistry, physics, biology, and computational science, we blend these disciplines seamlessly. This fusion of knowledge is then channeled into a systematic pipeline where it undergoes polymer processing, guided by (i) multiscale modeling, (ii) chemical and polymer design, (iii) processing and fabrication, and (iv) applications and analysis, yielding innovations across diverse fields.