Faculty Research Profile
Moon Kee Choi
학력
· 2016: Ph. D. School of Chemical & Biological Engineering, Seoul Nat'l Univ.
· 2009-2010: Research Engineer, Institute of Chemical Process, Seoul Nat'l Univ.
· 2009: B. S. School of Chemical & Biological Engineering, Seoul Nat'l Univ.
주요 경력
· 2019-present: Assistant Professor
· 2017-2019: Postdoctoral Fellow, Bioengineering, UC Berkeley
· 2016-2017: Postdoctoral Fellow, Chemical & Biological Engineering, Seoul Nat'l Univ.
수상/학회/외부활동
· 2020: The Miwon Commercial Young Scientist Award
· 2016: KVS Student Grants by 20th International Vacuum Congress
· 2016: The Best Research Award by Seoul Natl Univ. & Dongjin Co.
· 2016: QD 2016 JACS Award by The 9th International Conference on QDs
· 2016: Outstanding Student Award by The Korean Institute of Chemical Engineers
· 2014: KBSI Exhibition Prize for Bioimaging by Korea Basic Science Institute
· Member of the Polymer Society of Korea & Korean Institute of Chemical Engineers
나노/바이오 전자소자 연구실
Nano/Bio Electronics Lab
본 연구실에서는 양자점, 금속 나노와이어, 페로브스카이트 등 다양한 나노물질의 계면 특성을 개질하여 고해상도로 전사/적층하는 기술 개발과 나노 물질 기반의 복합체 형성 기술 개발을 통해 미래를 선도하는 새로운 폼펙터의 차세대 광전자소자 (LED, photodetector)및 소프트로봇을 개발하고자 합니다. 이를 이용하여 신개념 웨어러블/생체삽입형 전자소자를 개발하고 인류의 삶과 복지를 향상시키는데 이바지하는 연구를 진행하려 합니다.
To achieve the soft and stretchable nature in high performance electronics and to apply this technology to wearable biomedical electronics/optoelectronics/soft-robotics, several strategies need to be employed, such as the designed assembly of high-quality nanomaterials and new design of individual devices with deformable structures. We seek to develop novel nanocomposites and their printing technologies by controlling their interfacial properties to achieve multidimensional form factors and deformability while maintaining the unique optical/electrical/mechanical properties of each nanomaterial. We want to develop high performance wearable/implantable electronic devices and soft robots to improve human life and well-being.
To achieve the soft and stretchable nature in high performance electronics and to apply this technology to wearable biomedical electronics/optoelectronics/soft-robotics, several strategies need to be employed, such as the designed assembly of high-quality nanomaterials and new design of individual devices with deformable structures. We seek to develop novel nanocomposites and their printing technologies by controlling their interfacial properties to achieve multidimensional form factors and deformability while maintaining the unique optical/electrical/mechanical properties of each nanomaterial. We want to develop high performance wearable/implantable electronic devices and soft robots to improve human life and well-being.
연구분야
웨어러블 퀀텀 닷 LED, 4D 프린팅, 소프트 로봇 / Wearable Quantum Dot LEDs, 4D printing, Soft Robotics
Wearable Quantum Dot LEDs, 4D printing, Soft Robotics
연구 희망분야
유연하고 신축성있는 전자 기기, 웨어러블 전자 기기, 소프트 로봇 공학, 4D 프린팅,자가 치유, 인공 전자 장기 / Flexible & Stretchable Electronics, Wearable Electronics, Soft Robotics, 4D printing, Self-Healing, Artificial Electronic Organs
Flexible & Stretchable Electronics, Wearable Electronics, Soft Robotics, 4D printing, Self-Healing, Artificial Electronic Organs
연구주제
스트레처블 전자소자, 양자점 디스플레이, 웨어러블, 생체삽입형, 4D 프린팅
Stretchable electronic device, quantum dot display, wearable, bio-implantable, 4D printing
Stretchable electronic device, quantum dot display, wearable, bio-implantable, 4D printing
국가연구개발사업 기술 분류체계
국가과학기술표준분류
EC. 화공 > EC02. 나노화학공정기술 > EC0205. 나노공정시스템 기술
논문
· Advanced Materials, “Extremely Vivid, Highly Transparent, and Ultrathin Quantum Dot Light-Emitting Diodes.”, M. K. Choi✝, J. Yang✝, D. C. Kim✝, Z. Dai, J. H. Kim, H. Seung, V. S. Kale, S. J. Sung, C. R. Park, N. Lu, T. Hyeon, D.-H. Kim, 2018, 30, 1703279.
· Nature Communications, “Human-Eye-Inspired Soft Optoelectronic Device using High-Density MoS2-Graphene Curved Image Sensor Array.”, C. Choi✝, M. K. Choi✝, S. Liu✝, M. S. Kim, C. Im, O. K. Park, J. Kim, G. J. Lee, K. W. · Cho, M. Kim, E. Joh, J. Lee, D. Son, S.-H. Kwon, N. L. Jeon, Y. M. Song, N. Lu, D.-H. Kim, 2017, 8, 1664.
· Nature Communications, “Wearable Red-Green-Blue Quantum Dot Light-Emitting Diode Array Using High-Resolution Intaglio Transfer Printing.”, M. K. Choi✝, J. Yang✝, K. Kang✝, D. C. Kim, C. Choi, C. Park, S. J. Kim, S. I. Chae, T.-H. Kim, J. H. Kim, T. Hyeon, D.-H. Kim, 2015, 6, 7149.
특허
· Electronic Device for Artificial Eyeball and Artificial Eyeball Comprising the Same, 김대형, 현택환, 최문기, 최창순, Korea Patent (10-1978549), 2019.05.08
· Quantum dot electronic device and quantum dot transfer printing method, 김대형, 현택환, 최문기, 양지웅, 강광훈, US Patent (10,026,913), 2018.09.27