김진영
Kim, Jin-YoungDivision of Biomedical Technology
학력
- 2008 ~ 2013Imperial College London 박사
- 2006 ~ 2008한양대학교 석사
- 1999 ~ 2006한양대학교 학사
경력
- 2016 ~ CurrentDGIST(대구경북과학기술원) / 선임연구원
- 2012 ~ 2016ETH Zurich / 포스닥
수상실적
연구실 소개
- Bio-Micro Robotics Lab
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Our research focus is on Micro-Electromechanical Systems (MEMS) and Nano- Electromechanical Systems (NEMS) for robotics and biomedicine. Current research activities in our group include micro-robots, micro/nano manipulation, acoustic MEMS transducers, brain-machine interfaces, and microfluidics devices. Potential applications for those research areas include minimally-invasive surgery, drug/cell transportation within the human body, neural prostheses for artificial sensory systems, medical communication, and ultrasonic medical imaging.
Research Interests
Related Keyword
- "Magnetic Field Control Using an Electromagnetic Actuation System with Combined Air-Core and Metal-Core Coils", Gharamaleki, Nader Latifi. (2025-03). Magnetic Field Control Using an Electromagnetic Actuation System with Combined Air-Core and Metal-Core Coils. Advanced Intelligent Systems, 7(3). doi: 10.1002/aisy.202400462
- "Localized ultrasonic stimulation using a piezoelectric micromachined ultrasound transducer array for selective neural differentiation of magnetic cell-based robots", Kim, Seonhyoung. (2025-03). Localized ultrasonic stimulation using a piezoelectric micromachined ultrasound transducer array for selective neural differentiation of magnetic cell-based robots. Microsystems & Nanoengineering, 11(1). doi: 10.1038/s41378-025-00900-y
- "Shortwave Infrared Imaging of a Quantum Dot-Based Magnetic Guidewire Toward Non-Fluoroscopic Peripheral Vascular Interventions", Hwang, Junsun. (2025-01). Shortwave Infrared Imaging of a Quantum Dot-Based Magnetic Guidewire Toward Non-Fluoroscopic Peripheral Vascular Interventions. Small, 21(3). doi: 10.1002/smll.202404251
- "Virtual Reality-Enabled Intuitive Magnetic Manipulation of Microrobots and Nanoparticles", Chowdhury, A. M. Masum Bulbul. (2024-07). Virtual Reality-Enabled Intuitive Magnetic Manipulation of Microrobots and Nanoparticles. Advanced Intelligent Systems, 6(7). doi: 10.1002/aisy.202300793
- "Magnetically Controlled Intraocular Delivery of Dexamethasone Using Silica-Coated Magnetic Nanoparticles", Noh, Seungmin. (2024-06). Magnetically Controlled Intraocular Delivery of Dexamethasone Using Silica-Coated Magnetic Nanoparticles. ACS Omega, 9(26), 27888–27897. doi: 10.1021/acsomega.3c07033
- "Electromagnetic Manipulation System for Semi autonomous Control of Small scale Magnetic Objects with Sequential Programming", Latifi Gharamaleki Nader. (2023-05-12). Electromagnetic Manipulation System for Semi autonomous Control of Small scale Magnetic Objects with Sequential Programming. 대한기계학회 마이크로/나노공학부문 2023년 춘계학술대회, 132–132.
- "안구 내 약물전달을 위한 자성나노입자의 도입", 노승민. (2023-05-11). 안구 내 약물전달을 위한 자성나노입자의 도입. 대한기계학회 마이크로/나노공학부문 2023년 춘계학술대회, 70–70.
- "96-WELL FORMAT-BASED MICROFLUIDIC PLATFORM FOR HIGH-THROUGHPUT DRUG SCREENING", Jin, Chaewon. (2021-10-11). 96-WELL FORMAT-BASED MICROFLUIDIC PLATFORM FOR HIGH-THROUGHPUT DRUG SCREENING. 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2021, 1689–1690.
- "A magnetically controlled flexible microrobot for active and precise guidewire steering", Hwang, Junsun. (2021-05-27). A magnetically controlled flexible microrobot for active and precise guidewire steering. Nature Conference : Microrobots and Nanorobots for Biotechnology, 52–52.
- "Microphysiological network and coculture of five micro organs (cortical and hippocampal brain, cardiac, liver, and tumor 3D microtissues) on 96Well format based body on a chip", Jin, Chae-won. (2019-10-30). Microphysiological network and coculture of five micro organs (cortical and hippocampal brain, cardiac, liver, and tumor 3D microtissues) on 96Well format based body on a chip. 23rd International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2019, 380–381.
연구 뉴스
- Team led by Professor Choi Hong-Soo at DGIST elucidates the rotational magnetic field mechanism for maximizing the therapeutic effects on cancer cells using magnetic nanotherapeutics. 2023-09-22
- 자성나노치료제로 암세포 치료 효과를 극대화 하는 회전자기장 메커니즘 규명 2023-08-07
- Can we connect to a virtual world as in the movie “The Matrix”? Microrobot technology has been developed for externally connecting in vivo neural networks. 2023-03-31
- 영화 '매트릭스'처럼 가상 세계에 연결이 가능할까? 몸 속 신경망을 외부에서도 연결할 수 있는 마이크로로봇 기술 개발 2023-03-02
- Emergence of a game changer in the field of medical microrobots. Development of a mass production method for biodegradable microrobots that can disappear into the body after delivering cells and drugs. 2022-10-09