Jungyul Park: Difference between revisions
From OpenWetWare
Jump to navigationJump to search
Jungyul Park (talk | contribs) No edit summary |
Jungyul Park (talk | contribs) No edit summary |
||
(5 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
[[Image:logo1_1280.jpg|500px]][[Image:NBSM.JPG|250px]] | |||
<div style="padding: 10px; color: #ffffff; background-color: #000; width: 980px"> | |||
<center> | |||
[[NBSM | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''Home''' </font>]] | |||
[[NBSM:Research | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''Research''' </font>]] | |||
[[NBSM:Publications | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''Publications''' </font>]] | |||
[[NBSM:Internal | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''Internal''' </font>]] | |||
[[NBSM:Lab Members | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''Lab Members''' </font>]] | |||
[[NBSM:Talks | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''Talks''' </font>]] | |||
[[NBSM:Contact | <font face="trebuchet ms" size=3 style="color:#ffffff"> '''Contact''' </font>]] | |||
</center> | |||
</div><br> | |||
{| | |||
|- valign="top" | |||
|width=990px class="MainPageBG" style="border: 5px solid #000000; color: #000000; background-color: #FFFFFF"| | |||
<div style="padding: .4em .9em .9em"> | |||
==Jungyul Park== | |||
{|cellspacing="1" cellpadding="3" style="background:#ffffff; width: 700px;" | |||
{|cellspacing="1" cellpadding="3" style="background:#ffffff; width: 700px;" | |||
|style="background:#ffffff"| | |||
[[Image:Professor.jpg|150px]] | |||
|style="background:#ffffff"| | |||
'''Jungyul Park, PhD<br>''' | |||
Shinsu-dong, Mapo-gu, Seoul, 121-742, Korea<br> | |||
Assistant professor in Mechanical Engineering<br> | |||
Sogang University<br> | |||
(Tel)+82-2-705-8642<br> | |||
(Mobile)+82-10-5613-1021<br> | |||
Email: sortpark@sogang.ac.kr<br> | |||
|} | |||
=='''Fields of Interest'''== | =='''Fields of Interest'''== | ||
{|cellspacing="1" cellpadding="3" style="background:#ffffff; width: 700px;" | {|cellspacing="1" cellpadding="3" style="background:#ffffff; width: 700px;" | ||
Design, fabrication and analysis of BioMEMS (mainly for cell chips and tissue engineering: | Design, fabrication and analysis of BioMEMS (mainly for cell chips and tissue engineering: | ||
cell signaling, cell sampling and separation, cell manipulation, cell patterning, cell mechanics, cell hybridization)<br> | cell signaling, cell sampling and separation, cell manipulation, cell patterning, cell mechanics, cell hybridization)<br> | ||
Manipulation, characterization and identification of cells/bio-molecules using micro/nano technology<br> | Manipulation, characterization and identification of cells/bio-molecules using micro/nano technology<br> | ||
Ultra precise control for micro/nano manipulation <br> | Ultra precise control for micro/nano manipulation <br> | ||
|} | |} | ||
=='''Education'''== | =='''Education'''== | ||
Line 45: | Line 77: | ||
: Design and fabrication of new concept hybrid biopolymer actuator using self-organized cardiac cell, which can be operated without external power source, such as electric, electromagnetic, pneumatic, and thermal origin. It is utilized for micropump, power generator, and micro-nano actuator for nanorobot.<br> | : Design and fabrication of new concept hybrid biopolymer actuator using self-organized cardiac cell, which can be operated without external power source, such as electric, electromagnetic, pneumatic, and thermal origin. It is utilized for micropump, power generator, and micro-nano actuator for nanorobot.<br> | ||
'''- Design and fabrication of manipulation devices for biological cells using dielectrophoresis'''<br> | '''- Design and fabrication of manipulation devices for biological cells using dielectrophoresis'''<br> | ||
: Excellent experience in fabrication of microfluidic devices for manipulating biological cells. Good knowledge and experience in the theory of dielectrophoresis which is used to rotate, transport, and separate biological cells. Good simulation knowledge about FEM (CFDRC, ANSYS, FEMLab) for analysis of multi-physics in BioMEMS.<br> | |||
'''- Modeling, fabrication and performance evaluation of polypyrrole actuators'''<br> | '''- Modeling, fabrication and performance evaluation of polypyrrole actuators'''<br> | ||
: Modeling and measurement of the bending force in polyoyrrole actuators. Good Knowledge about polymer actuators.<br> | : Modeling and measurement of the bending force in polyoyrrole actuators. Good Knowledge about polymer actuators.<br> | ||
'''- Modeling and control of a micro-nano robot'''<br> | '''- Modeling and control of a micro-nano robot'''<br> | ||
: Design and fabrication of 3-DOF micro-mobile robot for micromanipulation. Experience in the theory of piezoelectric actuators.<br> | |||
'''- Design and control of a micromanipulation system'''<br> | '''- Design and control of a micromanipulation system'''<br> | ||
: Design of a sensorized microgripper using FEM (ANSYS). Identification and adaptive control of the sensorized micro gripper.<br> | |||
<br> | <br> | ||
'''Seoul National University''', Seoul, Korea March 1998 ~ February 2002<br> | '''Seoul National University''', Seoul, Korea March 1998 ~ February 2002<br> | ||
Line 59: | Line 91: | ||
- Development of real-time FDI system for ship's propulsion system<br> | - Development of real-time FDI system for ship's propulsion system<br> | ||
- Development of hydraulic system for CVT to improve fuel economy of vehicles<br> | - Development of hydraulic system for CVT to improve fuel economy of vehicles<br> | ||
|} | |||
|} | |} |
Latest revision as of 01:12, 7 October 2010
Jungyul Park
Fields of InterestDesign, fabrication and analysis of BioMEMS (mainly for cell chips and tissue engineering: cell signaling, cell sampling and separation, cell manipulation, cell patterning, cell mechanics, cell hybridization)Manipulation, characterization and identification of cells/bio-molecules using micro/nano technology Ultra precise control for micro/nano manipulation EducationSeoul National University, Seoul, Korea March 2000 ~ February 2005Ph. D in Mechanical & Aerospace Engineering Fluidpower Application and Production Automation laboratory Advisor: Prof. Kyo-Il Lee Thesis Title: “Design and Analysis of MEMS based Cell Manipulation System for Cellomics” Seoul National University, Seoul, Korea March 1998 ~ February 2000 M.S. in Mechanical & Aerospace Engineering Fluidpower Application and Production Automation laboratory Advisor: Prof. Kyo-Il Lee Thesis Title: “Design of Integrated Neuro-Controller for an Engine/Automatic Transmission System Considering an Optimal Line Pressure” Seoul National University, Seoul, Korea March 1994 ~ February 1998 B.S in Mechanical Design and Production Engineering Research ExperienceSogang University, Mechanical Engineering, Seoul, Korea Aug. 2007 ~ presentAssistant Professor, Nanobiosystems and Manipulation Lab Johns Hopkins University, Biomedical Engineering, Baltimore, USA May 2006 ~ Aug. 2007 Postdoctoral Fellow, Signal Transduction and Cell-Cell Communication Lab - Design and fabrication of a microplatform to control activation between T cell and pMHC - Study for mechanotransduction of cells in micro/nanoenvironment. Korea Institute of Science and Technology, Seoul, Korea March 2005 ~ April 2006 Postdoctoral Fellow, Microsystem Research Center - Design and fabrication of hybrid biopolymer actuator using self-organized cardiac cell
Seoul National University, Seoul, Korea March 1998 ~ February 2002 Research Assistant, Institute of Advanced Machinery and Design - Design and performance evaluation of a Multi-DOF Micro Accelerometer - Design and Control of an Engine/Automatic Transmission System Considering an Optimal Line Pressure - Development of real-time FDI system for ship's propulsion system - Development of hydraulic system for CVT to improve fuel economy of vehicles | |||||