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Multiphysics modeling and simulation, Chungnam National University, Korea ÒÑÓÐ1È˲ÎÓë
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Openings: We are currently seeking brilliant and highly motivated applicants to join the laboratory for Microfluidics and Biosensors for a one-year postdoc appointment in Chungnam National University. (Two-year possible) Main Job: A simulation and experimental work of a microfluidic system that involves both the effect of dean flow and inertial (lift) forces on particles travelling inside a microchannel. The candidate must have a solid background in mechanical engineering (specially in fluid mechanics). An extensive experience in numerical simulations about particle tracing involving different methods (FDTD or FEM) and/or software packages (e.g. COMSOL) with particular emphasis on multi-physics integration is highly desired. The candidate can do own research in other areas with discussion for career development. Good team-working skills in an international environment as well as excellent capability to discuss and communicate results in English are essential prerequisites. Travelling abroad will be part of the research work and could include some period of time spent in a different city/country. The candidate should be highly motivated, strive to achieve best results, and contribute to the advancement of his/her research team program. If interested, please send your CV in english to taeyoon.lee@cnu.ac.kr or zhaofei@amc.seoul.kr. ººÓïÓʼþÇë·¢ËÍÖÁzhaofei@amc.seoul.kr Prof. Tae Yoon Lee Department of Technology Education, Chungnam National University Tel: +82-(0)42-821-5696 (Office) / +82-(0)10-7737-7904 (Mobile) Email: taeyoon.lee@cnu.ac.kr / taeyoon816@gmail.com (Personal) EDUCATION: Ph.D. Mechanical Engineering (Minor: Biological Engineering) 2009 Louisiana State University ¨C Baton Rouge, USA B.E. Mechanical Engineering 2002 Kyunghee University, Korea, Republic of EMPLOYMENT: 09/2015 ¨C Present Assistant Professor, Department of Technology Education Adjunct Professor, Department of Biomedical Engineering Chungnam National University, Daejeon, Korea, Republic of 09/2013 ¨C 08/2015 Scientist II, BioElectronics Program, Institute of Microelectronics, Agency for Science, Technology and Research (A*STAR), Singapore 09/2009 ¨C 09/2014 Senior Research Engineer, HDT Part, Future IT Lab, LG Electronics Advanced Research Institute (Woomyun Campus), LG Electronics Inc., Seoul, Korea, Republic of 01/2004 ¨C 08/2009 Graduate Teaching/Research Assistant with Dr. Michael C Murphy (Ph.D. Dissertation Director) and Dr. Steven A Soper, Center for BioModular Multiscale Systems (CBM2), Louisiana State University, Baton Rouge, USA PUBLICATIONS (Recent 4 years): 1. T. Y. Lee*, K. Hyun*, S. Kim and H. Jung (2017) An integrated microfluidic chip for one-step isolation of circulating tumor cells, Sensors and Actuators B: Chemical. 238: 1144-1150 (IF: 4.758, JCR 2015) 2. Y. Shin, S. Y. Lim, T. Y. Lee and M. K. Park (2015) Dimethyl adipididate/Thin film Sample processing (DTS): A simple, low-cost, and versatile nucleic acid extraction assay for downstream analysis, Scientific Report 5: 14127 (IF: 5.578, JCR 2015) 3. J. Yoon, M. K. Park, T. Y. Lee, Y. Yoon, Y. Shin (2015) LoMA-B: A simple and versatile lab on a chip system based on single-channel bisulfate conversion for DNA methylation analysis. Lab Chip 15: 3530-3539 (IF: 5.586, JCR 2015) 4. Y. Shin, A. P. Perera, W. Y. Tang, D. L. Fu, Q. Liu, J. K. Sheng, Z. Gu, T. Y. Lee, T. Barkham and M. K. Park (2015) A rapid amplification/detection technique for analysis of pathogen in infectious disease. Biosens. Bioelectron. 68: 390-396 (IF: 7.476, JCR 2015) 5. K. Hyun*, T. Y. Lee*, S. H. Lee and H. Jung (2015) Two-stage microfluidic chip for selective isolation of circulating tumor cells. Biosens. Bioelectron. 67: 86-92 (IF: 7.476, JCR 2015) 6. T. Y. Lee, Y. Shin and M. K. Park (2014) A simple, low-cost, and rapid device for a DNA methylation-specific amplification/detection system using a flexible and silicon complex. Lab Chip 14(21): 4220-4229 (IF: 6.115, JCR 2014) 7. Y. Shin# , J. Kim and T. Y. Lee# (2014) A solid phase-bridge based DNA amplification technique with fluorescence signal enhancement for detection of cancer biomarkers. Sensors and Actuators B: Chemical. 199C: 220-225 (IF: 4.097, JCR 2014) 8. K. Hyun, T. Y. Lee#, H. Jung# (2013) Negative enrichment of circulating tumor cells using a geometrically activated surface interaction chip. Anal. Chem. 85(9): 4439-4445 (IF: 5.825, JCR 2013) * These authors contributed equally to this work. # These authors are equal senior authors. PATENTS (Registered): 1. Microfluidic apparatus for isolation, method for isolation using the same, and isolation kit for circulating rare cells using the same, KR Patent, 1016363160000, June 29, 2016 2. Blood sample assay cartridge and cartridge reader, KR Patent, 1015468260000, Aug. 18, 2015 3. Multistage microfluidic chip and method for selective isolation of sample using the same, KR Patent, 1015332300000, June 26, 2015 4. Sample analysis cartridge and sample analysis cartridge reader, US Patent, US8865074, Oct. 21, 2014 |
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