Research Topics

We are dedicated to designing and synthesizing conductive hydrogels with exceptional electrical conductivity, long-term stability, mechanical robustness, and superior biocompatibility, and applying them to transformative fields such as brain-machine interfaces, electronic skin, wound dressings, and drug delivery system for advancing bioelectronics and regenerative medicine.

Naturally derived cellulose nanocrystals self-assemble into structural color materials, offering sustainable solutions for photonic and functional applications.

Our team focuses on developing biofunctional nanomaterials in four key areas: intelligent nanocarriers for precise delivery, starch-based structural color materials for edible pigment innovation, starch-nanozymes for anti-tumor therapy, and starch-based radiative cooling films for sustainable cooling solutions.

Nanozymes are a class of nanomaterials that possess the activity of natural enzymes. They can mimic the catalytic functions of various enzymes, including superoxide dismutase (SOD), catalase (CAT), peroxidase (POD), glutathione peroxidase (GPx), and oxidase (OXD). Compared to natural enzymes, nanozymes offer advantages such as high stability, low cost, ease of regulation, and synergistic multi-enzyme activity.

Nanozymes, by mimicking the catalytic reactions of natural enzymes, have shown great potential in areas such as the treatment of inflammatory bowel disease, food preservation, prevention and treatment of periodontitis, and antibacterial applications.

Integrating cell technology and tissue engineering, we utilize our designed biomaterials as three-dimensional scaffolds. These scaffolds not only deliver cells and bioactive factors but also create a supportive microenvironment in vivo to facilitate the repair and regeneration of damaged tissues and organs.

We develop intelligent biomaterials that can respond to specific disease microenvironmental cues or external stimuli This allows for precise spatiotemporal control over drug release—ensuring the right dose is delivered to the right place at the right time for on-demand therapy.

Our vision is to serve as a bridge, connecting innovative therapeutics with advanced materials, to usher in a new era of precise, potent, and personalized medicine.