Our group is continuously dedicating effort in the research for micro-/nano-scale interfacial materials, and it is divided into five research directions:
1 Analytical systems
establishing gold nanoparticle, microfluidic chip-based analytical platforms for single cells, proteins, nucleic acids and small molecules.
2 Biomedical materials
exploring the cell-materials interactions and screening biomaterials with unique properties to pave the way for regenerative medicine.
3. Potential drugs
Engineering the gold nanoparticle-small molecule complex as antibacterial agents.
4. Neuroscience
Constructing in vitro model for neural systems by microfluidics and surface patterning.
5. Novel materials
Fabricating novel micro-/nano-scale materials by unconventional methods.
Our group is continuously dedicating effort in the research for micro-/nano-scale interfacial materials, and it is divided into five research directions:
1 Analytical systems
establishing gold nanoparticle, microfluidic chip-based analytical platforms for single cells, proteins, nucleic acids and small molecules.
2 Biomedical materials
exploring the cell-materials interactions and screening biomaterials with unique properties to pave the way for regenerative medicine.
3. Potential drugs
Engineering the gold nanoparticle-small molecule complex as antibacterial agents.
4. Neuroscience
Constructing in vitro model for neural systems by microfluidics and surface patterning.
5. Novel materials
Fabricating novel micro-/nano-scale materials by unconventional methods.
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