• 첨단 제조 기술: 생산제조/적층제조 원천 기술 개발을 통한 산업 적용 

• 최적설계 및 스마트제조: 구조 디자인 및 설계, 제조 공정 및 품질관리

• 의료기기 개발: 바이오센서 및 웨어러블 디바이스 개발

• 인공장기 및 바이오로보틱스: 조직공학 및 생체조직칩, 바이오로봇 개발

Advanced Manufacturing - Additive Manufacturing & Materials

Additive manufacturing technology, commonly known as 3D printing, is widely utilized across various industries, including mechanical engineering, aerospace, defense, healthcare, and construction. To fully leverage the potential of 3D printing, the development of diverse materials tailored to specific applications is essential. 3D printing continues to revolutionize manufacturing processes and drive innovation in numerous fields. Our research focuses on advancing printing processes and developing materials to support these transformative applications.

Biomedical Device - Biosensor & Wearable Device

In the medical field, biosensors and wearable devices play a critical role in disease diagnosis, biomarker monitoring, and personalized medicine. These technologies enable the rapid and accurate detection of pathogens, biomolecules, or genetic markers, facilitating early disease detection and improving diagnostic outcomes.

Our research focuses on developing innovative sensor fabrication methods and exploring their applications to advance these capabilities.

Artificial Organs - Tissue Engineering & Organ-on-a-chip

The field of tissue engineering aims to improve quality of life by creating complex structures that mimic the structure and function of human tissues or by developing functional tissues.

To accurately replicate the composition of various human tissues and ultimately enable precise, patient-specific diagnostics, our research focuses on fabricating diverse organ-on-chips using advanced bioprinting technologies.

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