Seok Woo Lee, Dong Sung Kim , Seung S. Lee , and Tai Hun Kwon

Slides:

Advertisements

Similar presentations

Dong Won Hwang, Jae Sung Lee Catalysis & Ecofriendly Science Lab. Chemical Engineering, POSTECH The Electronic Structure of Layered Perovskites.

Advertisements

FUEL AND AIR SUPPLY SYSTEM FOR COMBUSTION BASED POWER SOURCES Speaker : C.M Lee Teacher : Cheng-Hsien Liu Date: TRANSDUCERS 05, Seoul, Korea,

2015/6/111 Sequential parylene lift-off process for selective patterning of biological materials Advisor: Cheng-Hsien Liu Reporter: Y. S. Lin Date: 2007/4/18.

Introduction of Micro-mixer

Sensing and Actuation in Miniaturized Systems Sensing and Actuation in Miniaturized Systems PRESENTATION DNA Transformation by Local Heat Shock

Flow Restrictions and Fluid Turbulence in Microfluidic Channels By Joseph M. Clift.

A 3D Micromixer Fabrication With Dry Film Resist Advisor ： Cheng-Hsien Liu Reporter ： Yu-Sheng Lin Date ： 2007/04/18 A.D. Radadia 1, L. Cao 1, H.K. Jeong.

TEMPERATURE, FLOW AND GLUCOSE SENSORS INTEGRATED WITH A SPIRALLY- ROLLED POLYMER TUBE FOR CARDIOVASCULAR MONITORING Chunyan Li, Jungyoup Han, Pei-Ming.

Diffusion, Osmosis and Active Transport Section 2.2.

Solution of Eigenproblem of Non-Proportional Damping Systems by Lanczos Method In-Won Lee, Professor, PE In-Won Lee, Professor, PE Structural Dynamics.

IEA HPP Annex 28 Calculation of compact units Workshop IEA HPP Annex 28 8 th International Heat Pump Conference, Las Vegas, 30 May 2005 Thomas Afjei, Institute.

The Influence of Urban Development Density on Water Pollution Kyushik Oh and Dong woo Lee Department of Urban Planning Hanyang University, Korea.

指導老師:許藝菊學生:邱建龍介電電泳（DEP）基於微流體粒子分離器Dielectrophoresis (DEP) Based Microfluidic Particle Separator.

The 7 Minute Life University Introduction time management with a purpose.

Development of an Active Micromixer by Dielectrophrosis Particle Manipulating 姓名：黃朝鴻 Chao-hong Huang 班級：奈米一甲學號：ＭＡ１１Ｖ１０８.

The New Single-silicon TFTs Structure for Kink- current Suppression with Symmetric Dual-Gate by Three Split Floating N+ Zones Dept. of Electrical Engineering,

…………………………………………………………………………………………………………………………………… Lee Hun Joong Shin Kyoung Seung.

Diffusion The movement of molecules from an area of high concentration to an area of low. concentration.

Study on the phase change cement based materials Min Li Southeast University, China Southeast University th International Conference on.

CLIC Workshop th -17 th October 2008 Thomas Zickler AT/MCS/MNC 1 CLIC Main Linac Quadrupoles Preliminary design of a quadrupole for the stabilization.

Modification of ASC1 by UFM1 Is Crucial for ERα Transactivation and Breast Cancer Development Hee Min Yoo, Sung Hwan Kang, Jae Yeon Kim, Joo Eun Lee, Min.

Materials move across membranes because of concentration differences.

C A microfluidic device was created in order to mix the contents of two reservoirs through a 200um-wide, 30mm-long diffusion channel. Flow Characterization.

S U R F A C E T E N S I O N INTRODUCTION. SURFACE TENSION RESULTS FROM THE COHESIVE FORCES BETWEEN LIQUID MOLECULES THE MOLECULES AT THE SURFACE DO NOT.

Dynamic simulation of tuna longline gear using numerical methods JIHooN LEE, CHEUN Woo LEE AND BONG JIN CHA FISHERIES SCIENCE, 2005, 71,

We recycle! Enjoy Learning Science. We recycle! It is made of glass. It is made of metal. It is made of cardboard. It is made of plastic.

Counter-current flows in liquid-liquid boundary layers II. Mass transfer kinetics E. Horvath 1, E. Nagy 1, Chr. Boyadjiev 2, J. Gyenis 1 1 University.

The Design of Smart RFID Tag System for Food Poisoning Index Monitoring Chang Won Lee 1.1, Nghia Truong Van 1, Kyung Kwon Jung 2, Joo Woong Kim 1, Woo.

A Study of Electrical Impedance Property of an L 2 ePt Electrode 1 Interdisciplinary Program, Bioengineering Major, Graduate School, Seoul National University,

7 th Grade Science Week of October 18 Science Starters.

Utah Nanofab Design Review Meeting Device Architecture (Top View Layout and Layer Cross Section) Recipes & Settings Standard Concept Equipment & Tools.

A Multi-gigabit Rate Deep Packet Inspection Algorithm using TCAM

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Lamella Mixer CHEM-E7160- FLUID FLOW IN PROCESS UNITS MOHAMMED REFAAT

Changes in soil of pH and EC Chonbuk national university

Effect of factors on PPD synthesis

Environmental Wind Engineering (COE-IAS4)

APISAT 2010 Sep. 13~15, 2010, Xi’An, China

Impact Of CMV Reactivation On Relapse In Patients With Acute Leukemia Who Received Allogeneic Stem Cell Transplantation In First Remission: Possible GVL.

Comparative study on discharge conditions in micro-hole electrical discharge machining of tungsten carbide (WC-Co) material Hyun-Seok TAK 1 , Chang-Seung.

Numerical Modeling of Dynamics and Adhesion of Leukocytes

TITLE Authors Institution RESULTS INTRODUCTION CONCLUSION AIMS METHODS

“Salad” Notes Movement of molecules in and out of the cell

A. P. Shah Institute of Technology

Example: Micromixer.

دانشگاه شهیدرجایی تهران

تعهدات مشتری در کنوانسیون بیع بین المللی

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

بسمه تعالی کارگاه ارزشیابی پیشرفت تحصیلی

A new approach to strengthen grain boundaries for creep

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Early prediction of molecular remission by monitoring BCR-ABL transcript levels in patients achieving a complete cytogenetic response after imatinib therapy.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

2 types of passive transport

3.4 Diffusion and Osmosis KEY CONCEPT ________ ____ across _________ because of ____________ ___________.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Type your title here Type author Names here *Affiliation 1

Younha Kim 1) · Jung-Hun Woo

We live in a consumer society

Graft-versus-Tumor Effect According to Type of Graft-versus-Host Disease Defined by National Institutes of Health Consensus Criteria and Associated Outcomes

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Presentation transcript:

SPLIT AND RECOMBINATION MICROMIXER BASED ON PDMS THREE-DIMENSIONAL MICRO STRUCTURE Seok Woo Lee, Dong Sung Kim , Seung S. Lee , and Tai Hun Kwon Korea Advanced Institute of Science and Technology, Pohang University of Science and Technology TRANSDUCERS’05 Reporter:宋建緯 2007/6/20

Outline Introduction Concept and Design Fabrication Experiment Conclusion

Introduction Mixing in laminar flow molecular diffusion stretching and folding

Introduction Active miromixer Passive micromixer Reduce the mixing length External energy Passive micromixer No external energy Low cost Lower mixing efficiency than active micromixers

Concept and Design Split and Recombination Interfaces are increased to 2^(n+1)-1

Fabrication Lower layer Upper layer

Experiment result-1 NaOH&1%phenolphthalein water solution Interface

Experiment result-2 Quantify the mixing efficiency

Mixing efficiency

Conclusion Increases interfaces exponentially 2^(n+1)-1 Problems in alignment

Thanks for Your Attention!