Faculty Research Profile
전기전자공학과
김명수
조교수Myungsoo KIM
- 연락처052-217-2292
- 이메일myungsookim@unist.ac.kr
- 연구실Bldg. 106 Rm. 601-10(Office)
Myungsoo KIM
학력
Dec 2020: Ph.D., The University of Texas at Austin, Austin, TX, USA
Department of Electrical and Computer Engineering
May 2019: M.S.E., The University of Texas at Austin, Austin, TX, USA
Department of Electrical and Computer Engineering
May 2016: B.S., Sungkyunkwan University (SKKU), Suwon, Korea
Department of Electronics and Electrical Engineering
수상/학회/외부활동
Jan 2022: Ben Streetman Award, Senior Award, 2020-2021, UT Austin
Dec 2019: Professional Development Award, UT Austin Graduate School
Sep 2019: Best Paper Award in the area of Engineering, KSEA (Korean-American Scientists and Engineers Association) Austin Chapter
Jul 2016 – Dec 2020: Overseas Graduate Students Scholarship, Kwanjeong Educational Foundation, Seoul, Korea
나노소자기술 연구실
Nano Electronics and Technology Lab
반갑습니다. 울산과학기술원 (UNIST) 김명수 교수의 나노소자기술 연구실입니다.
저희는 나노물질, 로직 및 메모리 소자, 뉴로모픽 응용, 유연소자, 바이오 소자, RF 소자와 관련된 기초 응용 연구를 진행하고 있으며, 나노소자 및 나노기술을 활용하여 새로운 패러다임의 발견, 이해, 그리고 응용을 통해 사회적 요구에 맞는 새로운 유비쿼터스 시스템을 구현하고자 합니다.
Welcome to Prof. Kim’s Nano Electronics and Technology Lab at UNIST (Ulsan National Institute of Science and Technology).
We are conducting basic and applied research at the frontier of nanomaterials, logic and memory devices, neuromorphic applications, flexible nanoelectronics, bioelectronics, RF integrated circuits, and electromagnetics. Our passion lies in the discovery, understanding, and application of new paradigms to enable novel ubiquitous systems that can address societal needs.
Welcome to Prof. Kim’s Nano Electronics and Technology Lab at UNIST (Ulsan National Institute of Science and Technology).
We are conducting basic and applied research at the frontier of nanomaterials, logic and memory devices, neuromorphic applications, flexible nanoelectronics, bioelectronics, RF integrated circuits, and electromagnetics. Our passion lies in the discovery, understanding, and application of new paradigms to enable novel ubiquitous systems that can address societal needs.
연구분야
나노물질, 로직 및 메모리 소자, 뉴로모픽 응용, 유연소자, 바이오 소자, RF 소자
Nanomaterials, Logic and Memory devices, Neuromorphic applications, Flexible nanoelectronics, Bioelectronics, RF integrated circuits, Electromagnetics
연구주제
나노물질, 로직 및 메모리 소자, 뉴로모픽 응용, 유연소자, 바이오 소자, RF 소자
Nanomaterials, Logic and Memory devices, Neuromorphic applications, Flexible nanoelectronics, Bioelectronics, RF integrated circuits, and Electromagnetics
Nanomaterials, Logic and Memory devices, Neuromorphic applications, Flexible nanoelectronics, Bioelectronics, RF integrated circuits, and Electromagnetics
국가연구개발사업 기술 분류체계
국가과학기술표준분류
ED. 전기/전자 > ED04. 반도체소자·시스템 > ED0405. 반도체 재료
논문
Myungsoo Kim, Emiliano Pallecchi, Ruijing Ge, Xiaohan Wu, Guillaume Ducournau, Jack C. Lee, Henri Happy and Deji Akinwande, “Analogue Switches made from Boron Nitride Monolayers for Application in 5G and Terahertz Communication Systems”; Nature Electronics, (2020).
Myungsoo Kim*, Ruijing Ge*, Xiaohan Wu*, Xing Lan, Dr. Jesse Tice, Jack C. Lee and Deji Akinwande, “Zero-static power RF Switches Based on MoS2 Atomristors”; Nature Communications, (2018) (Editor’s Choice)
Ruijing Ge*, Xiaohan Wu*, Myungsoo Kim, Jianping Shi, Sushant Sonde, Li Tao, Yanfeng Zhang, Jack C. Lee, and Deji Akinwande, “Atomristor: Nonvolatile Resistance Switching in Atomic Sheets of Transition Metal Dichalcogenides”; Nano letters, (2017) (ACS Editor’s Choice)