Faculty Research Profile
Taesung Kim
학력
· 2006: Ph.D., Mechanical Engineering, Univ. of Michigan at Ann Arbor
· 1999: M. S., Mechanical Engineering, Seoul National University
· 1997: B. S., Mechanical Engineering, Seoul National University
주요 경력
· 2017~Present: Professor, UNIST
· 2013~2020: Director of BK21PLUS
· 2012~2017: Associate Professor, UNIST
· 2009~2012: Assistant Professor, UNIST
· 2008: Postdoctoral Fellow, EECS, Univ. of California Berkeley, Lawrence
Berkeley National Lab (LBNL)/ Joint Bio Energy Institute(JBEI)
· 2006~2007: Postdoctoral Fellow, EECS, Univ. of Michigan at Ann Arbor
· 2002: Research Scientist, KIST
· 1999~2001: Research Engineer Nextech Co. Ltd
수상/학회/외부활동
· The Best Paper Prize in Conference: MEMS(2023)
· Samsung Human Tech(Bronze,2022), (Bronze, 2020)
· The Best Poster Prize in Conference: MRS(2019)
· National Government Scholarship Grantee for Overseas Students(2002~2004)
· Member of BSAC, KSME, KBCS, Society of Micro Nanos Systems
· Editorial Committee Member of KOSE, MDPI Biosensors
미세유체 및 나노메카트로닉스 연구실
MicroFluidics & NanoMechatronics Lab.
uFNM Lab.은 마이크로/나노 스케일의 유체역학 현상 연구 및 나노공정 기술과 메카트로닉스 기술을 기반으로 한 학제간 융합 연구를 목표로 한다. 현재는 마이크로/나노스케일의 유체역학, 나노디바이스 자동화를 위한 메카트로닉스 기술, 다중물리 기반 열∙유체해석기술, 2D∙3D 프린팅 기반 나노공정 기술을 접목하여 차세대 초미세유체디바이스 및 나노패터닝 기술을 주로 연구하고 있다
The long term research goal of MicroFluidics and NanoMechatronics (uFNM) lab. is to create novel micro-/nanofluidic technologies that develop a broad spectrum of interdisciplinary research fields. Currently, of uFNM lab. focuses on four research fields such as Microfluidics (Fluid Mechanics at Micro/Nano-scale), NanoMechatronics (Automation of Micro-/Nano scale Systems and Device), Multi-Physics simulation (Numerical Simulation of Fluids, Ions, Colloids and Devices) and Printing in 2D and 3D Manners (Micro/Nanofabrication)
The long term research goal of MicroFluidics and NanoMechatronics (uFNM) lab. is to create novel micro-/nanofluidic technologies that develop a broad spectrum of interdisciplinary research fields. Currently, of uFNM lab. focuses on four research fields such as Microfluidics (Fluid Mechanics at Micro/Nano-scale), NanoMechatronics (Automation of Micro-/Nano scale Systems and Device), Multi-Physics simulation (Numerical Simulation of Fluids, Ions, Colloids and Devices) and Printing in 2D and 3D Manners (Micro/Nanofabrication)
연구분야
Micro-/Nanofluidics, Bio-MEMS, Nanomechatronics, Lab on a chip, Material Patterning and Printing
Micro-/Nanofluidics, Bio-MEMS, Nanomechatronics, Lab on a chip, Material Patterning and Printing
연구 희망분야
Multi-physics simulation, Functionalized Ion Transport, Nanoparticle Seperation
Multi-physics simulation, Functionalized Ion Transport, Nanoparticle Seperation
연구주제
· 마이크로-/나노유체역학 (바이오센서, 랩칩) / Micro-/Nanofluidics and Transport Control (Biosensors, Lab-on-a-chip)
· 마이크로-/나노공정기술 (혼합스케일 패터닝, 크랙기반 포토리소그래피) / Unconventional Micro-/Nanofabrication (Mixed-scale Patterning, Crack-photolithography)
· 메카트로닉스 (마이크로-/나노유체장치 자동화기술) / Nano Mechatronics (Automation of Micro-/Nanofluidic Devices)
· 다중물리기반 열/유체/유동 해석 / Multiphysics Simulations (Thermo-Fluid Dynamics, Electrokinetics)
· Micro-/Nanofluidics and Transport Control (Biosensors, Lab-on-a-chip)
· Unconventional Micro-/Nanofabrication (Mixed-scale Patterning, Crack-photolithography)
· Nano Mechatronics (Automation of Micro-/Nanofluidic Devices)
· Multiphysics Simulations (Thermo-Fluid Dynamics, Electrokinetics)
국가연구개발사업 기술 분류체계
국가과학기술표준분류
EA. 기계 > EA06. 나노·마이크로기계시스템 > EA0601. 나노마이크로센서
논문
· Nano-Micro Letters / Full-Fiber Auxetic-Interlaced Yarn Sensor for Sign-Language Translation Glove Assisted by Artificial Neural Network / 2022.12
· Advanced Materials / Micro-/Nanofluidics for Liquid-Mediated Patterning of Hybrid-Scale Material Structures / 2019.05
· Nano Energy / Portable triboelectric microfluidic system for self-powered sensors towards in-situ detection / 2021.07
· Nature Communications / Evaporation-driven transport-control of small molecules along nanoslits / 2021.02
· Advanced Materials / Multimodal and Covert–Overt Convertible Structural Coloration Transformed by Mechanical Stress / 2020.06 (inside front cover)
특허
· Fine Object Separation Device and Fine Object Separation Method Using Fine Object Separation Device, US18/017,856 (2023)
· Transformable grating composite, manufacturing method thereof, and anti-fake device using the same, KR10-2019-0169059 (2019,Tech Transfer to NBST)
· Microfluidic cell culture device, KR10-1554777 (2015), US14/908,124 (2016)