4D printed soft robots merge the flexibility of soft robots with the self-transforming abilities of 4D printing using smart materials that react to external stimuli. This enables them to alter shape, size, and function in response to their surroundings, making them an innovative type of robotic technology.
Soft ionotronics is a new research area that creates soft electronic devices powered by ions instead of electrons, through the combination of soft robotics, materials science, and electrochemistry. The resulting devices are more flexible, biocompatible, and biodegradable than traditional electronic devices.
Nano/micro-biointerface involves the interactions between devices and biological systems at the nanoscale or microscale. This is important for developing stable, effective, and biocompatible biomedical devices and robots that can interact with living organisms in a controlled manner.
ASMR lab에서 기계공학부 동계 학부학술제에 참석하여 연구실 홍보 및 포스터 발표(민성현, 남승우, 오윤환, 김종민, 조승진 학부 연구생)를 진행하였습니다.또한 김종민, 조승진 학부 연구생이 이종찬 석사 연구원과 함께 "Robust Mechanical Design Incorporating Rigid Microneedle and Ultra-Soft Adhesive Layer for Bucc…
2024.01.01원문보기: https://www.materic.or.kr/v2/mp/content.asp?f_id=107&page=3&listType=20&s_kinds=&s_word=&listCnt=
2023.03.23Tough Carbon Nanotube-Implanted Bioinspired Three-Dimensional Electrical Adhesive for Isotropically Stretchable Water-Repellent BioelectronicsHyeongho Min, Sangyul Baik, Jinhyung Kim, Jihyun Lee, Bo-Gyu Bok, Jin Ho Song,…
2023.03.23