Biorobotics Lab.
Traditional robots have mainly focused on industrial applications such as military, disaster response, and construction, where they can perceive the environment and make decisions. However, recently, the field has expanded to intelligent robots such as rehabilitation robots for people with physical disabilities, silver robots for an aging society, biomimetic robots based on natural materials, and diagnostic bio-sensors applying nanotechnology. As the advancement of biorobotics technology demands innovative solutions in medical, agricultural, and mechanical fields, the Biorobotics Laboratory actively leads research on core technologies related to flexible wearable devices, cell diagnostics, and biomimetic engineering using advanced technologies such as bioprocessing, bionanosensors, tissue engineering and regenerative medicine, nanomaterials processing, 3D printing, and artificial intelligence.
Location: Room 206, Building No. 1, College of Agriculture and Life Sciences
Biorobots
- Biomimetic robots
- Medical robots
- Rehabilitation robots
Diagnostic Bionanosensors and Biorobots
- Biosensing and analytical methods using nanoparticles
- Real-time diagnostic kits in the form of wearable devices
- Drug delivery control systems using microfluidics
Tissue Engineering and Regenerative Medicine
- Biomimicry using natural materials, nanoparticles, and micro-nanostructures
- Tissue differentiation and regeneration under dynamic conditions via electrical stimulation and electromagnetic field exposure
- Fabrication of composite scaffolds for 3D cell culture and differentiation
- Bioreactor system design
- 3D bioprinting technology
- Bioink production using hydrogels and natural materials
- Artificial organ printing using bioprinting technology
- 3D bioprinter design
Micro-Nanomaterials Processing Technology
- Synthesis and purification of graphene and CNT (Carbon Nanotube)
- Extraction and purification of CNC (Cellulose Nanocrystal) from agricultural by-products
- Nanomaterial coating technology
Biomechanics
- Physical analysis of cellular mechanisms
- Mathematical analysis of cellular mechanisms
- Dynamic analysis of cell migration