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Micro Total Analysis Systems 2005Volume 1

Proceedings of uTAS 2005

Ninth International Conference on Miniaturized

Systems for Chemistry and Life Sciences

Boston, Massachusetts, USAOctober 9-13, 2005

edited by

Klavs F. Jensen

Massachusetts Institute of Technology, USA

Jongyoon Han

Massachusetts Institute ofTechnology, USA

D. Jed Harrison

University ofAlberta, CANADA

Joel Voldman

Massachusetts Institute ofTechnology, USA

Sponsored by:Transducer Research Foundation

TECHNISCHE

INFORMATIQNSBJSUOTHOC

UNIVERSITATSSIBLIOTHeKHANNOVER

ISBN: 0-9743611-1-9

TRF Catalog Number: 05TRF-0002

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Day 1 - Monday, October 10,2005

Plenary I

MINIATURIZED SYSTEMS FOR DRUG DELIVERY AND TISSUE ENGINEERING

R.S. LangerMassachusetts Institute ofTechnology, USA

Concurrent Session 1A1 - Clinical System

RAPID ALCOHOL TESTING IN WHOLE BLOOD BY DISK-BASED

REAL-TIMEABSORPTION MEASUREMENT 1

J. Steigcrt, L. Riegger, M. Grumann, T. Brenner, J. Ilarter, R. Zengerle,and J. Ducree

IMTEK, University ofFreiburg, GERMANY

ANALYSIS OF SALIVA SAMPLES FOR END-STAGE RENAL

DISEASE DIAGNOSTICS USING AN IMAGING FIBER-OPTIC

MULTIPLEXED MICROARRAY 4

D.R. Walt, D. Rissin, C. DiCcsarc, T. Blicharz, and R. I layman

Tufts University, USA

DIFFERENTIAL EXTRACTION OF MALE AND FEMALE DNA IN AN

AUTOMATED MICROFLUIDIC DEVICE 7

A.J. Devitt, N. Aflatooni, M. Vinas, N. Loh, F. Pourahmacli, R. Yuan,

and M.A. Northrup

Microftuidic Systems, USA

Concurrent Session 1BI - Flow Transport and Imaging

CONVECTION-LIMITED SURFACE TRANSPORT IN

NANOFLUIDIC CHANNELS 10

T, Gervais, C. Tsau, J. El-Ali, S.R. Manalis, and K.F. Jensen

Massachusetts Institute of Technology, USA

A DETECTION METHOD OF 3D PARTICLE-POSITIONS AND 3D

MICROFLOW DIAGNOSTIC METHOD IN A MICROFLUIDICS 11

S.Y. Yoon and K.C. Kim

Pasan National University, KOREA

x

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3D HIGH-SPEED TIME-RESOLVED FLUORESCENCE IMAGING OFSOLVENT INTERACTIONS IN MICROFLUIDIC DEVICES 16R.K.P Benninger, 0. Hofmann, J. McGinty, J. Requejo-Isidro, I. Munro,M.A.A. Neil, A.J. deMello, and P.M.W. French

Imperial College London, UK

Concurrent Session 1A2 - Immunoassay

NONSPECIFIC BINDING REMOVALWITH ULTRASONICMICRODEVICES 19

G.D. Meyer1, J.M. Moran-Mirabal1, D.W. Branch2, and H.G. Craighead.11 Cornell University, USA and 2Sandia National Laboratories, USA

A POLYMER LAB-ON-A-CHIP FOR MAGNETIC IMMUNOASSAY

WITH ON-CHIP SAMPLING AND DETECTION CAPABILITIES 22

J. Do and CM. Aim

University ofCincinnati, USA

MICROFLUIDIC SANDWICH IMMUNOASSAYS FOR

SUB-FEMTOMOLE DETECTION USING MAGNETIC

FIELD-INDUCED NANOPARTICLES 25

J.H. Kang, Y.K. Hahn, K.S. Kim, and J.K. Park

Korea Advanced Institute ofScience and Technology (KAIST), KOREA

Concurrent Session 1B2 - Mixing/Pumping

MICROFLUIDIC SERIAL TRANSFER CIRCUIT:

AUTOMATED EVOLUTION OF RNA CATALYSTS 28

B.M. Paegel and G.F. JoyceThe Scripps Research Institute, USA

PERVAPORATION-DRIVEN MICROPUMPS:

APPLICATION TO CRYSTALLINE GROWTH 31

J. Leng1, B. Lonetti', P. Tabeling1, A. Ajdari1, and M. Joanicot2

'ESPCJ, FRANCE and2Laboratory OfFuture (LOF), FRANCE

INTEGRATED FLUID INJECTORS AND MIXERS FOR pH CONTROL

IN MINIATURE BIOREACTOR ARRAYS 34

H.L.T Lee and R.J. Ram

Massachusetts Institute ofTechnology, USA

Plenary II

SUPRAMOLECULAR METALARRAYS AND METAL-MEDIATED

MOLECULAR MOTIONS: ARTIFICIAL METALLO-DNA AND

PEPTIDES, MOLECULAR BALL BEARINGS AND CONTAINERS 37

M. ShionoyaUniversity ofTokyo, JAPAN

XI

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Poster Session Microfluidics - Fluid Manipulation

A BIOMIMETIC ELASTOMERIC CHECK VALVE

WITH DIODE BEHAVIOR 41

P.J. Hung, P.J. Lee, J. Flu, J. Chen, V.M. Rao, and L.P. Lee

University ofCalifornia at Berkeley, USA

A FUNCTIONAL DISPOSABLE LAB-ON-A-CHIP WITH EMBEDDED

MICRO PINCH VALVES FOR WHOLE BLOOD ANALYSIS 43

J. Han'.C. Gao',J. Do'.S.H. Lee1, J. Kai',S. Lee1, L. Ramasamy1, J. Nevin1,G. Beaucage1, J.Y. Lee2, and C.H. Aim1'University of Cincinnati, USA and'Ohio State University, USA

AC ELECTRIC FIELD DRIVEN MICROFLUIDIC CONTROL 46

N.G. Green, S.J. Willmore, and II. Morgan

University ofSouthampton, UK

PATTERNING BIOLOGICAL SOLUTIONS USING ADDRESSABLE

MICROFLUIDIC NETWORKS 49

J.-Y. Shiu, C.-W. Kuo, and P. Chen

Academia Sinica, TAIWAN

CAPILLARY-ASSEMBLED MICROCHIP (CAs-CHIP):ON-CHIP INTEGRATION OF VALVING AND SENSING 52

I-I. Hisamoto, S.-I. Funano, and S. Terabe

University ofHyogo, JAPAN

CHARACTERIZATION OF AN ELASTOMERIC MICROFLUIDIC

ENERGY STORAGE DEVICE 55C. Easley, J. Karlinsey, and J. Landers

University of Virginia, USA

DESIGN AND VALIDATION OF A COMPLEX GENERIC FUIDIC

MICROPROCESSOR BASED ON EWOD DROPLET FOR

BIOLOGICAL APPLICATIONS 58Y. Fouillet, D. Jary, A.G. Brachet, C. Chabrol, J. Boulet, P. Clement/,D. Lauro, R. Charles, and C. PeponnetCommissariatea I'EnergieAtomique (CEA), FRANCE

DEVELOPMENT OF A CHEMICAL-RESISTANT MICROVALVE

ARRAY FOR RAPID PARALLEL BIOCHEMICAL SYNTHESIS AND

ANALYSIS ON MICROCHIPS 61

Z. Hua, Y. Xia, O. Srivannavil, and E. Gulari

University ofMichigan, USA

XII

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ELECTROSTATIC ACTUATORS COMPOSED OF EXTENSIBLEGRAPHITE-PDMS COMPOSITE MEMBRANES 64R. Carlson and D. Meldrum

University of Washington, USA

FLOW PATTERNING BY PHASE-SHIFTED

ELECTROOSMOTIC FLOWS 67F. Schonfeld1 and S Hardt1'2'Institut fiir Mikrotechnik Maim GmbH, GERMANYand2Darmstadt University of Technology, GERMANY

GENERATION OF LOCAL IN-PLANE MICROVORTEXESACTUATED BY AC ELECTROOSMOSIS 70

S.-H. Huang, S.-K. Wang, and F.-G. TsengNational Tsing Hua University, TAIWAN

GENERATION OF STEADY FLOW IN SELF-CONTAINED

MICROFLUIDIC SYSTEMS 73

J. Atencia and D. Bcebe

University of Wisconsin at Madison, USA

MAGNETIC "QUASI-DIGITAL" FLOW REGULATORFOR DRUG INFUSOR 76

M. Duch1, J. Esteve2, A. Salas1, R. PSrez-Castillejos1, M.C. Acero1, J.A. Plaza1,E. Vall6s2 and E. G6mez2;Centra Nacional Microelectronica, SPAIN and

2Universitat de Barcelona, SPAIN

MICROFLUIDIC MULTI-CHANNEL SYSTEM FOR POLYMERASE

CHAIN REACTION WITH INTEGRATED LIQUID HANDLING 79

O. Frey, A. Hicrlemann, and J, LichtenbergETII Zurich, SWITZERLAND

MICROPARTICLE MIXING AND SEPARATION BYNONLINEAR

ELECTROKINETIC EFFECTS IN MICROFLUIDIC CHANNELS 82

C.K. Harnett1, A.J. Skulan1, T.F. Hill2, L.M. Barrett1, G.J. Fiechtner1,and E.B. Cummiiigs1'Sandia National Laboratories, USA and2Massachusetts Institute ofTechnology, USA

ON-CHIP TUNABLE MICROFLUIDIC DYE LASER 85

LC. Galas', J. Torres', and Y. Chen1'2'Laboratoire de Photonique et Nanostructures, FRANCE and

2Ecole Normale Superieiire, FRANCE

POLYMER ACTUATORS FOR LIQUID DISPLACEMENT

INMICROCHANNELS 88

M. Denoual and B. LepioufleSA TIE-Biomis, FRANCE

xiii

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POLYMER-BASED IN-CHANNEL ACTIVE MICROVALVE OPERATED

BY PNEUMATIC/TFIERMOPNEUMATIC ACTUATION 91

D.-K. Yoon, K.-S. Yun, and E. Yoon

Korea Advanced Institute ofScience and Technology (KAIST), KOREA

POWER-FREE SEQUENTIAL INJECTION FOR

MICROCHIP IMMUNOASSAY 94

K. Hosokawa, M. Omata, K. Sato, and M. Maeda

RIKEN, JAPAN

Poster Session Microfluidics - Fluid Mechanics and Modeling

A SELF-PRIMING HIGH FLOW RATE ULTRASONIC

VORTEX PUMP 97

X. Chen and A. Lai

Cornell University, USA

DISPERSION IN MICROCHANNELS:

THE IMPORTANCE OF THE WIDTH 100

N. Bontoux1, A. Ajdari2, and H.A. Stone1

'LPN, FRANCE, ''ESPCI, FRANCE, and 3Harvard University, USA

EXPANSION CHANNEL FOR MICROCHIP FLOWCYTOMETER 103

H. Bang\H. Yun', K.C. Clio2, C. Chung2, D.-C. Han1, and J.K. Chang''SeoulNational University, KOREA and'Digital Bio Technology, Inc., KOREA

EXTENDING THE FUNCTIONALITIES OF SHEAR-DRIVEN

CHROMATOGRAPHY NANO-CHANNELS USING

HIGH ASPECT RATIO ETCHING 106

W. De Malsche1'2, D. Clicq', H. Eghbali1, N. Vervoort1, II. Gardeniers\

A. van den Berg2, and G. Desmet''Vrije Universiteit Brussel, BELGIUMand

2

University ofTwente, THE NETHERLANDS

THREE-DIMENSIONAL MICROFLUIDIC FLOW FIELD

CFIARACTERIZATION WITH PARTICAL IMAGE VELOCIMHTRY

AND LASER SCANNING CONFOCAL MICROSCOPY 109

S. Chao, M.R. Holl, L. Jang, and D.R. Mcldrum

University of Washington, USA

Poster Session Microfluidics - Multi Phase Fluidics

A 0.25 PICOLITER ELECTROSTATIC MEMS S1DES1IOOTKR

DROP DISPENSER 112

P. Galambos, K. Pohl, D. Luck, and D. CzaplewskiSandia National Laboratories, USA

XIV

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CONTAMINATION-FREE DROPLET FUSION ANDCONTINUOUS-FLOW PCR

115M. Chabert, K.D. Doriman, and J.-L. ViovyInstitut Curie, FRANCE

DEPENDENCE OF THE NUMBER OF THEORETICAL PLATES OFMICRO COUNTER-CURRENT EXTRACTION ON FLOWRATES 118A. Aota, A. Hibara, and T. Kitamori

University of Tokyo, JAPAN

DETERMINATION OF MATRIX POLARITY OF TERNARYORGANIC SOLVENT MIXTURES USING A MICROSEGMENTED FLOW ASSEMBLY

121P.M. GQnther', T. Sprogies1, Th. Frank2, J.M. Kohler1, and G.A. GroB1'Technical University afllmenau, GERMANY and

2Little Things Factory, GERMANY

EFFECTS OF FLUID ELASTICITY ON THE DYNAMICS OF DROPFORMATION IN MICROCHANNEL FLOWS 124J. Husny and J.J. Cooper-White

University ofQueens/and, AUSTRALIA

MICROFLUIDIC CHIPS SYSTEMS BASED ON STOPPED-FLOWLIQUID-LIQUID EXTRACTION 128Q. Fang, II. Chen, and Z.-L. FangZhejiang University, CHINA

MICROTI IERMAL TECHNIQUES FOR MIXING, CONCENTRATION,AND HARVESTING OF DNA AND OTHER MICRODROPLET

SUSPENSIONS 131

A.S. Basu and Y.B. Gianchandani

University ofMichigan, USA

Poster Session Microfluidics - World-to-Chip Interfacing

A MULTIFUNCTIONAL MACRO-TO-MICRO INTERFACE FOR

HIGH THROUGHPUT MICROFLUIDIC SYSTEMS 135

I. Meyvanlsson and D. Beebe

University ofWisconsin at Madison, USA

FORMATION OF PARALLEL MICROFLUIDIC CHANNELS WITH

WEDGE COMPRESSION HIGH-DENSITY FLUIDIC INTERCONNECT

TECHNIQUE AND MAGNETIC FORCE SEALING 138

L.L. Clui' andF. Cerrina2'Genetic Assemblies, Inc., USA and2University ofWisconsin at Madison, USA

xv

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MICRO-WELL ARRAY INTERFACE FOR CAPILLARY ARRAY

ELECTROPHORESIS 141

C.R. Forest, B.L. Crane, and I.W. Hunter

Massachusetts Institute ofTechnology, USA

Poster Session Microfluidics - Others

AN INTEGRATED AND REUSABLE ARRAY PCR GENETIC

AMPLIFICATION AND CE DETECTION MICROFLUIDIC CHIP

WITH INCORPORATED VALVES 145

A.R. Prakash', L.M Pilarski2, C.J. Backhouse', and K.V.I.S. Kaler1

'University ofCalgary, CANADA,2Cross Cancer Institute, CANADA, and

JUniversity ofAlberta, CANADA

DEVELOPMENT OF A STABLE CHEMICAL GRADIENT

USING A CONVECTION-FREE PLATFORM 148

V. Abhyankar and D. Beebe

University of Wisconsin at Madison, USA

IMAGING SURFACE PLASMON RESONANCE FOR MONITORING

BIOMOLECULAR INTERACTIONS IN MICROFLUIDIC DEVICES 151

R.B.M Schasfoort1, B. Beusink1, S. Schlautmann', A.J. Tiidos', and G.1I.M. Engbers'11

University ofTwente, THE NETHERLANDS and

2IBIS Technologies B. V., THE NETHERLANDS

Poster Session Microfabrication - MEMS

A CHRONIC DRUG-DELIVERY PROBE WITH ON-CHIP

CORRUGATED MICROVALVES 154

K. Baek, Y. Li, M. Gulari, and K.D. Wise

University ofMichigan, USA

A DEVICE INTEGRATING PARAFFIN MICROACTUATOR,

FLUIDIC COMPARTMENT AND MICRONEEDLE: ARRAY FOR

FLUID INJECTION OR SAMPLING 157

I-I. Yousef1, M. Lehto', T. Jttdcrblom1,1. Enculescu1'2, and K. Iljori';Uppsala University, SWEDEN and2National Institute ofMaterial Phvsics, ROMANIA

A NOVEL HIGH ENERGY DENSITY DIELECTRIC ELASTOMER

ACTUATOR FOR MICRO ANAYS1S SYSTEMS 160

J.J. Loverich, I. Kanno, and II. Kolera

Kyoto University, JAPAN

A SIMPLE TWO TERMINAL LONGITUDINAL HOTWIRE SENSOR

FOR MONITORING THE POSITION AND SPEED OF ADVANCING

LIQUID FRONTS IN MICRO CHANNELS 163

K. Ryu, K. Shaikh, E, Goluch, P. Mathias, and C. Liu

University ofIllinois at Urbanu-Champaign, USA

XVI

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A THREE-DIMENSIONAL SUBSTRATE FOR CARDIAC MYOCYTEORIENTATION AND CONTRACTION FORCE MEASUREMENTS 166Y. Zhao and X. ZhangBoston University, USA

CONTACTLESS ELECTROCHEMICAL ACTUATOR FOR PRECISE

SAMPLING ON MICROCHIP169

L. Metref, F. Herrera, D. Berdat, and M. GijsEcole Polytechnique Federate de Lausanne, SWITZERLAND

SWITCHABLE STIFFNESS NANOSCANNING PROBE FOR

BIOLOGICAL APPLICATIONS 172C. Mucller-Falcke, S. Gouda, S. Kim, and S.-G. Kim

Massachusetts Institute of Technology, USA

Poster Session Microfabrication - Micromachining

A SHADOW-MASK TO MAKE HALF MILLION SUBMICRON

SQUARE PATTERNS AT ONCE 175

M.C. Tarhan, A. Tixier-Mita, and H. FujitaUniversity of Tokyo, JAPAN

CONTROLLED OUT-OF-PLANE POSITIONING OF MICROFLUIDIC

COMPONENTS IN SU-8 DRIVEN BY PLASTIC STRAIN 178

D. Haelligcr and A. Boisen

Technical University ofDenmark, DENMARK

FULLY-DRY FABRICATION OF MONOLITHIC HIGH-ASPECT-RATIO

EMBEDDED FARYLENE M1CROCFIANNELS 181

P.-J. Chen, D. Rodger, and Y.-C. Tai

California Institute ofTechnology, USA

Poster Session Microfabrication - Polymer Technology

MICROFLUIDIC POLYETHER ETHER KETON (PEEK) CHIPSCOMBINED WITH CONTACTLESS CONDUCTIVITY

DETECTION FOR uTAS 184

II. Muhlberger, A.E. Guber, and W. Hoffmann

Forscluingszcnlnim Karlsruhe, GERMANY

FABRICATION OF A HOLLOW METALLIC MICRONEEDLE

ARRAY USING SCANNING LASER DIRECT WRITING 187

II. Yu\ K. Shiba1, B. Li2, and X. Zhang''Boston University, USA and-

Fraunhofer USA Centerfor Manufacturing Innovation, USA

XVII

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FABRICATION OF ADDRESSABLE MICROSTRIP AS COMPONENTS

FOR THE BIOANALYSIS OR M1CROACTUATION 190

S.R. Kim, J.Y. Baek, D.J. Kim, G.H. Kwon, and S.H. Lee

Dankook University, KOREA

INJECTION MOLDING OF MICROFLUIDIC CHIPS BY

EPOXY-BASED MASTER TOOLS 193

T. Brenner', N. Gottschlich2, G. Knebel2, C. Mueller1, II. Reineeke1,R. Zengerle', and J. Ducree'

'IMTEK, University ofFreiburg, GERMANYand2 Greiner-Bio One GmbH. GERMANY

PHASE-CHANGING SACRIFICIAL MATERIALS FOR Till' FABRICATION

OF MICROFLUIDIC ANALYSIS SYSTEMS IN POLYMERS 196

R.T. Kelly, P.H. Humble, M.L. Lee, and A.T. WoolleyBrigham Young University, USA

SCANNING LASERPRODUCES FUNCTIONAL MICROFLUIDIC

STRUCTURES AT A SINGLE SU-8 LAYER 199

A. Gueit, A. Sharon, and B. Li

Fraunhofer USA Centerfor Manufacturing Innovation, USA

SURFACE MODIFICATION, MECHANICAL PROPERTY, AND

MULTI-LAYER BONDING OF PDMS AND ITS APPLICATION 202

O.C. Jeong', T. Yamamolo2, S.W. Lee2, T. Fujii2, and S. Konishi'1Ritsumeikan University, JAPAN and2 University of Tokyo, JAPAN

WAFER-SCALE M1CROMOLD1NG OF UNITARY POLYMERIC

MICROSTRUCTURES WITH SIMULTANEOUSLY FORMED

FUNCTIONAL METAL SURFACE 205X. Wu, Y. Zhao, Y.-K. Yoon, S.-O. Choi, J.-II. Park, and M.Ci. Allen

Georgia Institute of Technology, USA

Poster Session Microfabrication - Others

A SIMPLE TECFIN1QUE FOR INCORPORATING HETEROGENEOUSCATALYSTS INTO MICROREACTORS 208A. lies', R. Woolton2, M. llabgood2, R. Fortt2, and A.J. deMello''National Institutefor Materials Science, JAPAN and

2Imperial College London, UK

LTCC TECHNOLOGY FOR VARIOUS MICROSYSTEM APPLICATIONS 211

L. Golonka', K. Malecha', I-I. Roguszezak', D. Stadnik2,1. Orabowska",M. Chudy2, A. Dybko2, and Z. Brzozka2

'^Wroclaw University of Technology, POLAND and2Warsaw University ofTechnology, POLAND

XVIII

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Poster Session Nanotechnology - Nanobiotechnology

AN INTEGRATED MICROFLUIDIC PROCESSOR FOR SINGLENUCLEOTIDE POLYMORPHISM-BASED DNA COMPUTING 214W.H. Grover and R.A. Mathics

University ofCalifornia at Berkeley, USA

FABRICATION OF MICROCANTILEVER WITH

NANO-INTERD1GITATED ELECTRODES (IDES) FORDNA BINDING PROTEIN DETECTION 217J.A. Lee1, J.Y. Yun', K.-C. Lee2, S.I. Park2, and S.S. Lee1'Korea Advanced Institute ofScience and Technology (KAIST), KOREA and2Korea Research Institute ofStandards and Science (KR1SS), KOREA

FABRICATION OF MONODISPERSE, SHAPE-SPECIFIC

NANOPART1CLES FOR USE AS DELIVERY VECTORS 220G. Denison1, J. Rolland1, B. Maynor2, L. Euliss2, and J.M. DeSimone2'Liquidia Technologies, USA and2University ofNorth Carolina, USA

FORMATION AND STABILITY OF A SUSPENDED LIPID

BILAYER ON SILICON SUBMICRON SIZE PORES 223A. Simon, F. Sauler, C. Pudda, L. Ghenim, N. Picollet D'hahan, F. Chatelain,and A. Fuchs

Coinmissariale a I'EnergieAtomique (CEA), FRANCE

SELECTIVE FUNCTIONALIZATION OF CANTILEVER,BIOSENSORS USING A MICROARRAY SPOTTER 226

K.L. Aubin, S.M. Park, J.M. Moran-Mirabal, B.R, Hie, M. Kondratovich,D.M. Lin, and II.G. CraigheadCornell University, USA

TEMPERATURE DEPENDENT ANGULAR VELOCITY

MEASUREMENT OF Fl-ATPASE BIOMOLECULAR MOTOR

BY MICRO FABRICATED LOCAL HEATING DEVICE 229

II. Arata, H. Noji, and 11. FujitaUniversity of Tokyo, JAPAN

Poster Session Nanotechnology - Nanofluidics

CHEMICAL REACTION BY MIXING IN NANOCHANNEL

UTILIZING PRESSURE-DRIVEN FLOW CONTROL SYSTEM 232

E. Tamaki1, A. Hibara2, T. Tsukahara2, H.B. Kim2, and T. Kitamon1'2'3

'Japan Science and Technology Agency, JAPAN,2

University ofTokyo, JAPAN, and

JKanagawa Academy ofScience and Technology (KAST), JAPAN

XIX

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HYBRID ATOMISTIC/CONTINUUM MODELING OF

ELECTROOSMOTIC FLOW IN NANOSCALE CHANNELS 235

R. Nilson and S. Griffiths

Sandia National Laboratories, USA

EFFICIENT BIOMOLECULE PRE-CONCENTRATION BY

NANOFILTER TRIGGERED ELECTROKINETIC TRAPPING 238

Y.-C. Wang, C. Tsau, T. Burg, S. Manalis, and J. Han

Massachusetts Institute of Technology, USA

Poster Session Nanotechnology - Nanoengineering

ANANOFLU1DIC ELECTROSPRAY SOURCE; FABRICATED

USING FOCUSED ION BEAM ETCHING .. 241

C. Descatoire1, D. Troadcc1, L. Buehaillot1, A. Ashcrofr, and S. Arscott1

'lnstitut d'Eleclronique, de Mieroelectronique et de Nunotcchnologie, FRANC 'E and

2Astbury Centrefor Structural Molecular Biology, UK

FABRICATION OF SILICA NANOCHANNHLS VIA SCANNED

COAXIAL ELECTROSPINNING 244

M. Wang1, N. Jing1, C.-K. Choir, M.-C. Hung2, and J. Kameoka''Texas A&M University, USA and2 University of Texas, USA

Poster Session Materials & Surface - Surface Modification

ADHESION MECHANISMS FOR PHASE SEPARATED POLYMER

FILMS USING INTERLOCKING MICROSTRUCTURES AND

SURFACE CHEMICAL TREATMENT 247

G. Subrebost and G.K. Fcdder

Carnegie Mellon University, USA

ENGINEERING MICROFLUIDIC CHIPS WITH INTEGRATED

BINDING SITES FOR ULTRAMINIATURIZED IMMUNOASSAYS 250

J.O. Foley, H. Schmid, R. Stutz, and E. Delamarche

IBM Research GmbH, SWITZERLAND

PROTEIN ADSORPTION RESISTANCE BY BIOCOMPATIBLE

PHOSPOLIPID POLYMERS AS A SURFACE: MODIFICATION

ONPDMS 253

K. Ishihara, J. Sibarani, and M. Takai

University ofTokyo, JAPAN

SUPERHYDROPHOB1C AND HYDROPH1L1C STATES ON

POROUS SILICON FOR BIOAPPLICATIONS 256

A. Ressine, D. Finnskog, G. Marko-Varga, and T. l.aurell

Lund University, SWEDEN

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SURFACE MODIFICATION OF PDMS MICROFLUIDIC DEVICESUSING TRANSITION METAL SOL-GEL CHEMISTRY 259C.T.Culberlson and G.T.Roman

Kansas State University, USA

Poster Session Materials & Surface - Nanostructured Materials

A METAL-ORGANIC FRAMEWORK BASED PRECONCENTRATORFOR GAS SAMPLING IN A MICRO-GAS CHROMATOGRAPH 262Z. Ni, M. Shannon, K. Cadwallader, J. Jerrell, and R. Masel

University ofIllinois at Urhana-Champaign, USA

MICROFLUIDIC SURFACE-ENGINEERING OFCOLLOIDAL NANOPARTICLES

265S. Khan and K. Jensen

Massachusetts Institute of Technology, USA

Poster Session Materials & Surface - Interface Characterization

A MULTI-TECHNIQUES APPROACHTO THE CHARACTERIZATIONOF MICROCHIP SURFACE STATE AND TREATMENTS 268R. Attia, A. Pallandre, B. de Lambert, E. Psichari, and J.-L. ViovyInstitut Curie, FRANCE

Poster Session Applications - Genomics and Protcomics

A PLUG-AND-PLAY SINGLE-STEP CAPILLARY

ELECTROPHORESIS SYSTEM 271

K. Ono' anclT. Fujii21Enplas Laboratories, Inc., JAPAN and

2University ofTokyo, JAPAN

HIGH PRECISION PROFILING OF GLYCOPEPTIDES

USING I1PLC-CHIP/MSTOF 274

K. Killeen1,11. Yin', R. Brennen1, K. Seaward1, R. Grimm2, X. Li3, H. Zhang3,and R. Aebersold3

'Agilent Technologies, USA, 'Agilent Technologies, GERMANY, and

'institutefor Systems Biology, USA

HIGH THROUGHPUT COMPACT PROTEIN

CRYSTALLIZATION DEVICE 277

M.l. Al-Maq1;2, H. Lebrasscur1, W.-K. Choi1-2, T. Torii1, H. Yamazaki2,E. Shinohora", and T, Higuehi1'University ofTokyo, JAPAN and2 TechnoMedica Co., Ltd., JAPAN

INCREASED PROTEIN DIGESTION RATE IN POROUS SILICON

NANOVIALS ARRAYS 280

D. Finnskog, A. Ressine, G. Marko-Varga, and T. Laurefl

Lund University, SWEDEN

xxi

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QUANTITATIVE STUDY OF THE ADSORPTION OF PCR REAGENTS

DURING ON-CHIP BI-DIRECTIONAL SHUNTING PCR 283

P.-A. Auroux.1, P.J.R. Day2, and A. Manz3

'Imperial College London, UK,2University ofManchester. UK, and

3Institutefor Analytical Sciences (ISAS), GERMANY

RADICALACTIVATED CLEAVAGE OF PEPTIDES AND PROTEINS:

AN ALTERNATIVE TO PROTEOLYTIC DIGESTION 286

B. Jones', L. Locascio2, and M. Hayes''Arizona State University, USA and2National Institute ofStandards and Technology, USA

Poster Session Applications - Clinical Diagnostics

A DISPOSABLE MICROFLUIDIC DEVICE FOR CELL LYSIS

AND DNA ISOLATION 289

J. Wang, M. Mauk, Z. Chen, and 1I.H. Bau

University ofPennsylvania, USA

A LAB-ON-CHIP FOR RAPID DNA-BASED IDENTIFICATION

OF STREPTOCOCCUS PNEUMONIAE 292

B. Fouque', A.-G. Brachct', F. Marcel', R. Dupont1, G. Delapierre',A. Fischetti2, J. Jalava3, and F. Chatelain1

'CEA, FRANCE, 2ST Microelectronics, ITALY, and'

Mohidiag, FINLAND

BONT RESPONSIVE HYDROGELS AS SENSORS

IN MICROCHANNELS 295

K. Plunkett1, J. Moorthy2, W. Tepp\ K. Berkowski', I-;. Johnson-, J. Moore',

and D. Beebe2

'University ofIllinois at Urbana-Champaign, USA and2

University of Wisconsin at Madison, USA

DETECTION OF MUTANT ALLELES IN WILD-TYPE BACKGROUND

TOWARDS AN EARLY PANCREATIC CANCER DETECTION 298

S. Ananthnarayan', F. McCormiek', 0. Ileid2, M. linger2, G. Facer.

E. Quan2, and A. Daridon2

'University ofCalifornia at San Francisco, USA and "Fluidigm Corporation, USA

FOIL-BASED BIOMEMS FOR ELECTROCHEMICAL

CAPILLARY IMMUNOASSAYS 301

I. Moser', B. Enderle1, G. Jobst2, and G. Urban1'IMTEK, University ofFreiburg, GERMANY and '\lohst Technologies. GERMANY

HIGH SPEED, MULTI-CHANNEL MICROFLUIDIC SYSTEM

FOR MULTI-PATHOGENS SEROLOGY MONITORING 304

H. Aoki, Y. Nakamura, M. Tojo, T. Hara, Y. Yamagata, T. Nagamune, and H. Kase

'Fuence Company, Ltd., JAPAN, 2RIKEN, JAPAN, and 'University of Tokyo, JAPAN

XXII

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AN INTEGRATED MICRO CELL COUNTING ANDCONCENTRATION SENSING CHIP

307D.W. Lee, S. Yi, and Y.-H. Cho

Korea Advanced Institute ofScience and Technology (KAIST), KOREA

ON-CHIP PPT LEVEL ENZYME IMMUNOASSAY OF B-TYPE

NATRIURETIC PEPTIDE USING A PDMS BASED MICROFLUIDICDEVICE COMBINED WITH A PORTABLE SURFACE PLASMONRESONANCE SYSTEM

3]0R. Kurita, Y. Sato, F. Mizulani, and 0. Niwa

National Institute for Advanced Industrial Science and Technology (AIST), JAPAN

RAPID BACTERIA COUNTING BY MULTI-STEP BIOCHEMICALREACTION IN A MICROFLUIDIC DEVICE 313T. Kogure, T. Matsuno, E. Kawata, K. Noda, M. Sakata, and A. Tokida

Bussan Nanotech Research Institute Inc., JAPAN

Poster Session Applications - Microarrays

CELL ARRAYS ON CHIP 316

M. Zhong, N. Yang, Y.-H. Choi, and D.J. Harrison

University ofAlberta, CANADA

HIGH-THROUGHPUT REAL TIME MEASUREMENTS OF

DNA HYBRIDIZATION IN A DOUBLE LAYER

POLYDIMETIIYLSILOXANE MICROSYSTEM 319

J. Goulpeau1'2, D. Le Clerre3, F. Richard3, L. Talini3, D. Trouchet2, and P. Tabeling1'ESPCI, FRANCE, 2Berlin Technologies, FRANCE, and3 Genescore, FRANCE

HIGH-THROUGHPUT SCREENING OF MUTANT

AKR ENZYMES USING MRNA DISPLAY AND NOVEL

MICROREACTOR ARRAY CHIPS 322

Y. Ilosoi'.K. Takahashi', M. Biyani2,N. Nemoto3, T. Akagi3, and T. Ichiki1'4'University ofTokyo, JAPAN, 2Saitama Small Enterprise Promotion Corporation,

JAPAN, National Institute for AdvancedIndustrial Science and Technology (AIST),JAPAN, and

A

Japan Science and Technology Agency (JST), JAPAN

INTEGRATED MICROFLUIDIC DEVICE FOR GENE

EXPRESSION M1CR0ARRAY 325

R. Liu, T. Nguyen, K. Schwarzkopf, K. Peyvan, and S. FujiComhiMutrix Corp., USA

RAPID CENTRIFUGAL PROCESSING OF

MICROARRAY EXPERIMENTS 328

M. Grumann1, M. Dube2,0. Gutmann1, S. Lute1, J. Steigert1, L. Riegger1,K. Mittmann2, M. Daub', R. Zengerle', and J. Ducre'e1

'IMTEK, University ofFreiburg, GERMANY and2University ofApplied Sciences Minister, GERMANY

xxiii

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Poster Session Applications - Separation Science

APPLICATION OF THERMAL LENS MICROSCOPY AND SWEEPING

FOR HIGHLY SENSITIVE DETECTION IN ELECTROPHORETIC

ANALYSYS ON CYCLOOLEFIN POLYMER MICROCHIPS 331

F. Kitagawa1, T. Tsuneka1, Y. Akimoto1, J. Mizuno2, S. Shoji2, and K. Otsuka1

'Kyoto University, JAPAN and2 Waseda University, JAPAN

DYNAMIC COATING ON PMMA CE MICROCHIP FOR

SIZE-BASED PROTEINS SEPARATION 334

II.Okada'andY. Baba21Nagoya University, JAPAN and

2National Institute ofAdvanced Industrial Science and Technology (AIST). JAPAN

EFFECT OF SUB-MICRON PILLAR ARRAY ON DNA

KINETICS IN A FREE-SOLUTION CAPILLARY

ELECTROPHORESIS MICROSYSTEM 337

Y.C. Chan1, Y.-K. Lee1, M. Wong1, and Y. Zohar

'Hong Kong University ofScience and Technology. CHINA ami2University ofArizona, USA

NOVEL MIGRATION PHENOMENA IN STRUCTURED

MICROFLUIDIC DEVICES 340

J. Regtmeier, T.T. Duong, R. Eichhorn, D. Anselmelti, P. Reimann, and A. Ros

Bielefeld University, GERMANY

SINGLE-MASK TECHNOLOGY FOR ON-CHIP

HIGH-PRESSURE 1IPLC SYSTEM 343

C.-Y.ShihandY.C. Tai

California Institute of Technology, USA

TUNABLE PINCHED FLOW FRACTIONATION FOR EFFECTIVE

PARTICLE SEPARATION IN MICROFLUIDIC DEVICES 346Y. Sai', M. Yamada2, M. Yasuda', and M. Seki1'Osaka Prefecture University, JAPAN and2University ofTokyo, JAPAN

ULTRASONIC CHROMATOGRAPHY IN SILICON-BASED

MICROFLUIDIC SYSTEM 349

M.K. Araz and A. Lai

Cornell University, USA

Poster Session Applications - Cell Handling and Analysis

A CELL MICRODISPENSER FOR ACCURATI-POSITIONING OF SINGLE CELL 352

V. Haguet1, F. Rivera2, U. Seger2, N. Picollet-D'haluiii', P. Rcnaud',and F. Chatelain'

'CEA Grenoble, FRANCE and:EPFL, SWITZERLAND

XXIV

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CELL SORTING IN A MICRO-FLUIDIC SYSTEM WITHMAGNETIC NANOPARTICLES

355E. Psychari, A.-E. Saliba, C. Fultcrer, M. Slovakova, C. Goubault, aiidJ.-L. viovyCurie Institute, FRANCE

CONTINUOUS FLOW DIFFUSIVE FILTER FOR

APHERESIS OF WHOLE BLOOD358

P. Sethu and M. Toner

Massachusetts General Hospital, Harvard Medical School, andShriners Burns Hospital. USA

CULTURING EMBRYOS ON ENDOMETRIUM TISSUE PREFORMEDIN A MICROFLUIDIC DEVICE: ANEW TOOL FOR ART

(ASSISTED REPRODUCTIVE TECHNOLOGY) 361

S. Ostrovidov1'2, J. Mizuno\ II. Nakamura3, H. Inui3, Y. Sakai1, and T. Fujii1'University of Tokyo, JAPAN,

2PENTAX Corporation, JAPAN, and

3Inui Institute for Frontier Reproductive Medicine and Infertility, JAPAN

STUDY OF BREAST CANCER USING WHOLE CELL

IMPEDANCE: SPECTROSCOPY 364A. Han1, L.J. Cruz-Rivera1, L. Yang2, and A.B. Frazier''Georgia Institute ofTechnology, USA and2Emoiy University, USA

ELECTRICAL ASSISTED PATTERNING OF CARDIAC MYOCYTES

USING MICROFLUIDIC DEVICEAS A PLATFORMFOR

CARDIOVASCULAR ELECTRICAL STIMULATION STUDY 367

M. Yang and X. ZhangBoston University, USA

ELECTRONIC SORTING AND RECOVERY OF SINGLE LIVE

CELLS FROM MICROLITER SIZED SAMPLES 370

A. Fuehs', D. Freida', M. Abonnene2, G. Medoro2, L. Altomare3, A. Romani3,I. van Uitert'1, M, Tartagni', R. Guerrieri3, F. Chatelain', and N. Manaresi2'CEA, FRANCE. :Silicon Biosystems, ITALY, "University ofBologna, ITALY, and

''University ofTwettte, THE NETHERLANDS

EVALUATION OF CELL CYCLE STAGE BY ELECTROPHORETIC

MOBILITY USING A MICRO CAPILLARY ELECTROPFIORESIS CHIP 373

T. Akagi', K. Takahashi1, and T. Ichiki1'2'University ofTokyo, JAPAN and:Japan Science and Technology Agency (JST), JAPAN

HIGHLY ADAPTABLE: M1CROSTRUCTURED 3D CELL CULTURE

PLATFORM IN THE % WELL FORMAT FOR STEM CELL

DIFFERENTIATION AND CHARACTERIZATION 376

S. Gisclbrechi1, R. TruckcnmQlIcr1, A. Welle', K.-F. Weibezahn1, A. Schober2,G. SchlinglolT2, and E. Goltwald''

Forschungszcntrwn Karlsruhe. GERMANY and

2Technische Univcrsitut Iliiicnatt, GERMANY

XXV

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LARGE SCALE SINGLE CELL ANALYSIS USING HIGH DENSITY

HYDRODYNAMIC TRAPPING ARRAYS 379

D. Di Carlo, N. Aghdam, P.J. Flung, and L.P. Lee

University ofCalifornia at Berkeley, USA

LARGE-SCALE PARAMETRIC STUDY OF ELECTROPORATION

IN CANCERCELLS TO CONSTRUCT PHASE. DIAGRAMS USING

MICRO CELL-ARRAY CHIPS 382

H. He, D.C. Chang, and Y.-K. Lee

Hong Kong University ofScience and Technology, C1I1NA

MEMS DEVICE FOR CONTINUOUS BLOOD CELL SEPARATION 385

S. Zheng1, Y.-C. Tai1, and H.L. Kasdan2'California Institute ofTechnology, USA and

2IRIS International. Inc.. USA

MICROFLUIDIC DEVICE WITH INTEGRATED ANTIBODY

ARRAYS FOR CELL SIGNALING ANALYSIS 388

J. El-Ali1, S. Gaudet1, K.P. Murphy, Jr.2, U.B. Nielsen2, and K.F. Jensen'

'Massachusetts Institute of Technology, USA and

2Merrimack Pharmaceuticals Inc., USA

MICROFLUIDIC DEVICE FOR ELECTRIC-FIELD DRIVEN

SINGLE-CELL CAPTURE AND ACTIVATION 391

E.S. Douglas, N.M. Toricllo, and R.A. Mathies

University ofCalifornia at Berkeley, USA

MICROFUNNELS FOR CHIP-BASED PATCH-CLAMP EXPERIMENTS 394

T. Lehnert, D.M.T. Nguyen, L. Baldi, and M.A.M. CiijsEcole Polytechnique Federale de Lausanne, SWITZERLAND

MICROFLUIDIC DEVICE FOR THE STUDY OF NEUTROPHIL

RESPONSE TO RAPIDLY CHANGING GRADIENTS 397

D. Irimia', S.-Y. Liu2, W. Tharp2, A. Samadani1, M. Toner', and M. Po/nnnsky''Harvard University, USA, 2Massachusetts General Hospital, USA, and3Massachusetts Institute ofTechnology, USA

PLANARNANONEEDLES ON-CHIP FOR

INTRACELLULAR MEASUREMENTS 400

J. Emmelkamp, J.G.E. Gardeniers, II. Andersson, and A. van den Berg

University ofTwenle, THE NETHERLANDS

SINGLE CELL POSITIONING, ENTRAPMENT AND

ELECTRICAL CHARACTERISATION 403

T. Brasehler, R. Johann, U. Seger, P. Linderholm, N. Demierre, and P. Renaud

Swiss Federal Institute ofTechnology ofLausanne, SWITZERLAND

XXVI

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.406

TOWARDS SINGLE CELL FINGERPRINTING IN MICROFLUIDICDEVICE FORMAT: SINGLE CELL MANIPULATION, PROTEINSEPARATION AND DETECTION

W. Hellmich, K. Leflhalm, A. Sischka, T. Duong, N. Jensen, K. Nieii'aus,K. Tfinsing, A. Ros, and D. Anselmelti

Bielefeld University, GERMANY

TRANSISTOR-LESS, MASSIVELY-PARALLEL MANIPULATION OF

INDIVIDUAL CELLS BY ^ELECTROPHORESIS 409G. Mecloro1'2, N. Manaresi1, M. Tartagni2, and R. Guerrieri2'Silicon Biosyslems S.r.l., ITALYand '

University ofBologna, ITALY

Poster Session Applications - Chemical Synthesis

IONIC LIQUID DROPLET AS MICROREACTORDISPLACED BYELECTROWETT1NG ON DIELECTRIC 412

Ph. Dubois1'2, G. Marchand', Y. Fouillet', C. Peponnet1, C. Chabrol1,J. Bcrthier1, and M. Vaullier

1Commissariate a I'Energie Atomique (CEA), FRANCE and

2University ofRennes, FRANCE

MASSIVELY PARALLEL OLIGONUCLEOTIDE SYNTHESIS USING

MICROMAC1IINED BEAD-ARRAY M1CROWELL PLATE AND

LIGHT-DIRECTED CHEMISTRY 415

L.L. Chu', M.-1I. Li2, and F. Cerrina3'Genetic Assemblies, Inc., USA,2National University ofSingapore, SINGAPORE, and3University of Wisconsin, USA

ONLINE MONITORING iW REACTION INTERMEDIATES IN

CONTINUOUS FLOW MICROFLUIDIC SYSTEMS 418

R. Winkle', R. Wootton', G. Walter2, and A. deMello1

'imperial College London, UK and "Syngenta, UK

Poster Session Applications - Drug Discovery

A MICROFLUIDIC ARRAY OF PRIMARY MAMMALIAN HEPATOCYTES

FOR USE IN HIGH-THROUGHPUT DRUG SCREENING 421

B.J. Kane1, M.J. /inner1, M.L. Yarmush2'3,4, and M. Toner2'3'41Brigham and Women's Hospital, USA, 'Massachusetts General Hospital, USA,

3Harvard Medical School, USA, and "Shriners Hospitalfor Children, USA

MICROFLUIDIC CELL MIGRATION DEVICE FOR ACCELERATING

DRUG DEVELOPMENT IN CANCER METASTASIS 424

K.C. Chaw1,2. M. Manimaran1, and E.1I. Tay1,2'Institute ofBioengmeering and Nunotechology, SINGAPORE and

2NUS, SINGAPORE

XXVII

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Poster Session Applications - Environmental

HEAVY METAL MEASUREMENT IN MICROFLUIDIC

CHANNEL BY CONFINED LIQUID ELECTRODE PLASMA

OPTICAL EMISSION SPECTROMETRY 427

H. Matsumoto', A. Iiduka1, T. Yamamoto2, E. Tamiya1, and Y. Takamura1,3

'Japan Advanced Institute ofScience and Technology (JAIST), JAPAN,

2TenorInc, JAPAN, and3Japan Science and Technology Agency (JST), JAPAN

Poster Session Applications - Others

A MULTICIIIP-ARCHITECTURE-BASED FLEXIBLE AND EXTENDIBLE

NEURAL STIMULATION DEVICE FOR RETINAL PROSTHESIS 430

T. Tokuda1, A. Uehara1'2, J. Ohta1, Y. Terasawa2, M. O/awa", T. Fujikado',and Y. Tano3'Nara Institute ofScience and Technology, JAPAN, 2Nidek Co.. Ltd.. JAPAN, and

3Osaka University Medical School, JAPAN

ANEW AUTONOMOUS IMPLANTABLE MICRO POWER SUPPLY USING

BONE STRAIN-BASED PIEZOELECTRIC ENERGY HARVESTING 433

J.J, Loverich, I. Kanno, and II. Kotera

Kyoto University, JAPAN

APPLICATION OF MAGNETIC MICROMACTIINE FOR M1CROPUMP 436

S.I. Hisatomi1, A. Yamazaki1, K. Ishiyama1, S. Agatsuma1, M. Sendolr,

and K.I. Arai1

'Tohoku University, JAPAN and

2Miyagi Organization for Industry Promotion, JAPAN

IIYDRODYNAMICALLY CONTROLLED DROPLET BREAKUP

IN MICROFLUIDIC DEVICES 439

S. Doi1, M. Yamada2, M. Yasuda1, and M. Seki''Osaka Prefecture University. JAPAN and2University of Tokyo, JAPAN

RAISED LATERAL PATCH CLAMP ARRAY IN

OPEN-ACCESS FLUIDIC SYSTEM 442

A, Lau, P. Hung, and L,P. Lee

University ofCalifornia at Berkeley, USA

PREPARATION AND ELECTRICALLY MONITORED

MANIPULATION OF GIANT LIPID VESICLES FOR

IMPROVED MASS TRANSPORT ON-CHIP 445

E.S. Lee, D. Robinson, J.L. Rognlien, C.K. Harnett, B.A. Simmons,

C.R. Bowe Ellis, P.M. Dentinger, CM. Munoz, and R.V. Davalos

Sanc/ia National Laboratories, USA

xxviii

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Poster Session Detection Technologies - Optical

3D INTEGRATION OF MICROLENSES TO REALIZE ALOW-POWER AND HIGH-SENSITIVITY OPTICAL DETECTIONSYSTEM FOR A DISPOSABLE LAB-ON-A-CHIP 449S.-I. Chang and J.-B. Yoon

Korea Advanced Institute ofScience and Technology (KAIST), KOREA

DEVELOPMENT OF UV THERMAL LENS MICROSCOPE (UV-TLM) FORULTRASENSITIVE AND DIRECT DETECTION OF NON-LABELEDBIOMOLECTJLES ON A MICROCHIP 452M. Tokeshi1, S. lliki2, K. Mawatari1, A. Hibara3, and T. Kitamori3'Kanagawa Academy of Science and Technology (KAST), JAPAN,

2Institute ofMicrochemieal Technology, JAPAN, and

3University ofTokyo, JAPAN

MICROALBUMINURIA DETERMINATION ON A MICROCHIP

WITH FLUORESCENCE DETECTION BASED ON THIN-FILM

ORGANIC LIGHT EMITTING DIODES 455

0. Uol'mann', X. Wang2, J.C. deMello2, D.D.C. Bradley2, and A.J. deMello2'Molecular Vision Ltd., UK and 2Imperial College London, UK

MICR0MACHINEDA-S1:I1 FLUORESCENCE DETECTOR 458

T. Kamei1, M. Nagao1, and T. Wada2

'National Institute ofAdvanced Industrial Science and Technology (AIST), JAPAN and

2Fuji Electric Device Teclmologv Co. Ltd., JAPAN

PROTEIN BINDING DETECTION IN COMPACT PHOTONIC

CRYSTAL M1CR0CAV1TIES 461

L. Mirkarimi, E. Chow, D.I1. Yang, M.A, Bynum, M. Sigalas, and A. Grot

Agilent Technologies Laboratories, USA

REFRACTIVE INDEX MEASUREMENT OF SINGLE LIVING

CELL USING A BIOPHOTONIC CHIP FOR CANCER

DIAGNOSIS APPLICATIONS 464

X.J. Liang1, A.Q. Liu', X.M. Zhang1, P.M. Yap2, T.C. Ayi\ and H.S. Yoon1

'Nanvang Technological University, SINGAPORE and

2DSO National Laboratories, SINGAPORE

TOWARD ONE: MILLION-FOLD SENSITIVITY ENHANCEMENT

BY SWEEPINCi IN CAPILLARY ELECTROPHORESIS COMBINED

WITH THERMAL LENS MICROSCOPIC DETECTION USING AN

INTERFACE CI UP 467

T. Tsuncka1, K. Sucynshi1, K. Uehiyama2, A. Hattori2, F. Kitagawa1, and K. Otsuka

'Kyoto University, JAPAN and "Nippon Sheet Glass Co., LTD.. JAPAN

XXIX

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Poster Session Detection Technologies - Electrochemical

METHOD OF CALIBRATION OF GLUCOSE SENSOR IMPLEMENTED

IN AN INTEGRATED MICRODIALYSISBASED SYSTEM 470

D. Pijanowska1, A. Sprenkels2, W. Olthuis2, and P. Bergveld2'Polish Academy ofSciences, POLAND and

2MESA+ University ofTwentc, THENETHERLANDS

SUB-nm SPACED NANO-POROUS ELECTRODE SYSTEMS:

FABRICATION, PROPERTIES, AND APPLICATION TO

SENSITIVE ELECTROCHEMICAL DETECTION 473

U. Mailer1, J. Kentsch1, W. Nisch1, S. Neugebauer, W. Sehuhmanir,

S. Linke3, M. Kaczor3, T, Lohmueller'1, J. Spat/.'1, and M. Stel/.le1

'Universiicit Tiibingen, GERMANY,''Ruhr-University of Bodmin, GERMANY,

3IIL Planartechnik GmbH, GERMANY, and-1 University ofHeidelberg. GERMANY

Poster Session Detection Technologies - Mass Spectrometry

A FULLY INTEGRATED PLASMA ELECTRON SOURCE FOR

MICRO MASS SPECTROMETERS 476

J.-P. Hauschild, E. Wapelhorst, J. Muller, and M. Doms

Hamburg University of Technology, GERMANY

THE RAPID ANALYSIS OF SMALL MOLECULES AND DRUG

SCREENING FROM DESORPTION / IONIZATION MASS

SPECTROMETRY ON NANOPORE MATERIALS 479

C.-S. Lee1, K.-K. Kang2, H.-K. Rhee2, and B.-G. Kim2

'Chungnam National University, KOREA and "Seoul National University, KOREA

Poster Session Detection Technologies - Others

A WATER-BASED CHEMICAL MONITORING SYSTEM USING

INTEGRATED SILICON-IN-PLASTIC MICROFABRICATION 482

L. Zhu1, D. Meier2, C. Montgomery2, S. Sennmcik2, and D. DeVoe1

'University ofMaryland. USA and2National Institute ofStandards and Technology, USA

INVESTIGATION OF A RAPID MICROFLUIDIC SURFACE

PLASMON RESONANCE IMAGING (SPRI) SIGNAL

AMPLIFICATION SCHEME BASED ON Till- RATE, OF

FORMATION OF AN ENZYME-CATALYZED PRECIPITATE 485

M.S. Hascnbank, E. Fu, and P. Yager

University of Washington, USA

MICROMACHINED SCINTILLATION DEVICES WITH CHARGE

CONVERSION NANOPARTICLES FOR NEUTRON AND BETA

PARTICLE DETECTION 488

R.K. Dasaka, S.M. Pellegrin, M. Kamavaram, and C.G. Wilson

Louisiana Technical University, USA

xxx

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Concurrent Session 1 A3 - Elcctrokinetic Separation

ZONE SCULPTING WITH PARTITIONED

ELECTROK1NETIC INJECTIONS 491

T.M. Squires', M. Narovlyansky2, and G.M. Whitesides2'Caltech, USA and2Harvard Chemistry, USA

ORDERED NANOPORE CAVITY ARRAY STRUCTURED BY

COLLOIDAL TEMPLATING FOR ELECTROPHORESIS OF

LARGE DNA MOLECULES 494

Y. Zeng and D.J. 1 larrison

University ofAlberta, CANADA

1.5 DIMENSIONAL ELECTROPHORESIS IN NANOSCALE CHANNELS 497

S. Pennathur and J.G. SantiagoStanford University, USA

Concurrent Session 1B3 - Droplet

MOVING NON-CONDUCTIVE AND CONDUCTIVE DROPLETS

IN A PARALLEL PLATE ARRAY 500

D. Chatterjee, B. 1 letayothin, A.R. Wheeler, D.J. King, and R.L. Garrell

University ofCalifornia at Los Angeles, USA

USING CARTRIDGES OF NANOLITER PLUGS FOR

HIGH THROUGHPUT SCREENING 503

J.Q. Boedicker, B. Zheng, L. Li, D. Chen, and R.F. Ismagilov

University ofChicago, USA

TIMING CONTROLLABLE ELECTRQFUSION OF DROPLETS

IN A MICROFLUIDIC DEVICE 506

W.U. Tan and S. Takeuchi

University of Tokyo, JAPAN

xxxi

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Day 2 - Tuesday, October 11, 2005

Plenary III

MICROFABRICATION, MICROFLUIDICS, AND BIOMEDICINE:

NEW TOOLS ANDNEW OPPORTUNITIES

G.M. Whitesides

Harvard University, USA

Concurrent Session 2A1 - Cell Manipulation

NANONEWTON FORCES APPLIED TO CELLULAR ADHESIONS

WITH MAGNETIC NANOWIRES IN AN ELASTOMERIC

MICRONEEDLE ARRAY._.

509

N.J. Sniadecki1, A. Angelouch2, J.L. Tan2, D.I I. Reich2, and C.S. Chen21

University ofPennsylvania, USA and'Johns Hopkins University. USA

HYDRODYNAMIC TWEEZERS: SINGLE-CELL TRAPPING

ARRAYS FOR CELL DYNAMICS 512

B.R. Lutz and D.R. Meldrum

University of Washington, USA

ACOUSTIC TRAPPING OF CELLS IN A MICROFLUIDIC FORMAT 515

M. Nilsson1, L. Johansson2, T. Lilliehorn2, M. Lindvall1, J. Piskur1,M. Almqvist', S. Johansson2, T. Laurell', and J. Nilsson1'Lund University, SWEDEN and2 Uppsala University, SWEDEN

Concurrent Session 2B1 - NanoChannel Fabrication

NANOIMPRINTING OF NANOFLUIDIC CI IANNELS BY USING

HYDROPHILIC HYDROGEN SILSESQUIOXANE (1ISQ) 518

L.-J. Cheng, S.-T. Chang, and L.J, Quo

University ofMichigan, USA

DNA MOLECULAR ISOLATION IN NANO CHANNEL FOR SINGLE

MOLECULE TRAPPING BETWEEN MICRO ELECTRODES 521

M. Kumemura1, K. Tamura1, G. Hashiguchi2, and 11. I'ujita1'University of Tokyo, JAPAN and 2Kaguwa University. JAPAN

RAPIDLY-PROTOTYPED 3D NANOELUIDICS IN GLASS 524

S.H. Lee, K. Ke, A.J. Hunt, and E.F. Hassclbrink, Jr.

University ofMichigan, USA

XXXII

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Concurrent Session 2A2 - Integrated Cell Culture/Analysis Systems

INTEGRATED SYSTEM TO ANALYZE THE GENETICEFFECTS OF THE SPACEENVIRONMENT ON LIVINGCELLS IN CULTURE: GENESAT

527A.J. Ricco1, E. Agasid2, V. Barker2, T. Fahlen2, J.W. Hines2, L. Levine3,R. Mancinelli2, D. Oswell1, R. Ricks2, K. Ronzano2, D. Squires2, C. Storment1,G. Swaiss2, L. Timucin2, U. Udoh1, and B. Yost2'Stanford University, USA, 2NASA Antes Research Center, USA, and3ALine, Inc., USA

LOGARITHMICALLY PERFUSED EMBRYONIC STEM CELLCULTURE ON CHIP

530L.Y. Kim, H.-Y. Lee, and J. Voldman

Massachusetts Institute of Technology, USA

DYNAMIC PROFILING OF HEPATOCYTE STRESS RESPONSE IN AMICROFLUIDIC MULTI-CLONE LIVING CELL ARRAY 533K.R. King1, S. Wang2,1, D. Irimia2,3, M. Yarmush2'3, A. Jayaraman2,3,and M. Toner'•2-3'Harvard-MIT Health Science and Technolog}', USA,''Harvard Medical School, USA, and

3Shriner Hospitalfor Children, USA

Concurrent Session 2B2 - MicroFabrication

AN INTEGRATED BIOPHOTONIC AND MICROFLUIDIC CHIP

FOR CD4 CELL SORTING APPLICATIONS 536

Y. Sun1, A.Q. Liu1, P.H. Yap2, and T.C. Ayi2'Nanyang Technological University, SINGAPORE and

2DSC) NationalLaboratories, SINGAPORE

ASSEMBLY AND PRINTING OF MICRO AND NANO OBJECTS 539

T. Krausu, L. Malaquin1, E. Delamarche', H. Schmid', N.D. Spencer2,and H. Wolf1

'IBMResearch GmbH, SWITZERLANDand2Swiss Federal Institute of Technology ETH Zurich, SWITZERLAND

POROUS SILICON DIOXIDE CHANNELS FABRICATED FROM BLACK

SILICON FOR ELECTROKINETIC SEPARATIONDEVICES 542

K.B. Mogenscn, R.C. de A. Costa, and J.P. Kutter

Technical University ofDenmark, DENMARK

Plenary IV

CONTROLLING INTERNAL ORGANIZATION AND DIVISION

AXIS OF CULTURED CELLS WITH ADHESIVE MICROPATTERNS 545

M. Thdry', A. Pepin2, Y. Chen2, and M. Bornens1'inslitut Curie, FRANCE and 2Laboratoire Photonique et Nanostructures, FRANCE

XXXIII

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Poster Session Microfluidics - Fluid Manipulation

A GAS ACTUATED MICRO-JET PUMP FOR

MICROFLUIDIC SYSTEMS 551

X.H. Li', X. Yu', H. Cui2, Z. Li2, and D. Zhang''Peking University, CHINA and

2Institute ofMechanics Chinese Academy Sciences, CHINA

A PHASE CHANGE MICROVALVE USING A MELTABLE

MAGNETIC MATERIAL: FERRO-WAX 554

K.W. Oh, K. Namkoong, and C. Park

Samsung Advanced Institute ofTechnology, KOREA

A REAGENT INJECTION SYSTEM FOR STIMULATION TO

SPECIFIC CELL COLONIES USING 3-D SHEATH FLOW SCANNER 557

H. Mikado1, M. Kanai2, H. Nakanishi2, and S. Shoji1'Waseda University, JAPAN and2Shimadzu Corporation, JAPAN

AC ELECTROKINETIC MICROPUMPS: THE EFFECT OF

GEOMETRICAL CONFINEMENT, FARADAIC CURRENTS,

AND NONLINEAR SURFACE CAPACITANCE 560

L. Olesen1,2, H. Bruus2, and A. Ajdari11Ecole Superieure de Physique et de Chimie Industrielles, FRANCE and

2Technical University ofDenmark, DENMARK

CONTROL OF PARTICLE-DEPOSITION PATTERN IN A

SESSILE DROPLET BY USING THE RADIAL

ELECTROOSMOTIC FLOW 563

S.J. Kim1, K.H. Kang2,1.S. Kang1, and B.J. Yoon1'Pohang University ofScience and Technology, KOREA and

2University of Toronto, CANADA

COPLANARDIGITAL MICROFLUIDICS USING STANDARD

PRINTED CIRCUIT BOARD PROCESSES 566

P. Paik1, V. Pamula2, M.G. Pollack2, and K. Chakrabarly''Duke University, USA and2Advanced Liquid Logic Inc., USA

ELECTROOSMOTIC PUMPING THROUGH NANOCHANNELS 569

D. Kim1, J.Y. Min2, S.J. Kim2, and E.S. Yoon1'Korea Institute ofMachinery and Materials (KIMM), KOREA and2Korea Advanced Institute ofScience and Technology (KAIST), KOREA

HIGHLY-INTEGRATED MICROFLUIDIC CONTROL ON

MICRO OPTICAL SWITCHING VALVES ASSEMBLED DISK 572

PL Nagai, T. Irie, and S. Wakida

National Institutefor Advanced Industrial Science and Technology (AIST), JAPAN

xxxiv

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IMPROVED DESIGN AND PERFORMANCE OF AN ACOUSTICALLY

OPERATED MULTI CHANNEL PARTICLE SEPARATION CHIP 575

A. Nilsson, F. Petersson, and T. Laurell

Lund University, SWEDEN

LOCALLY CONTROLLING THE ENVIRONMENT OF A

MICROFLUIDIC CHIP AND PROGRAMMING ITS FLOW RATES 578

M. Zimmermann1'2, S. Bentley1, D. Juncker1, H. Schmid1, P. Hunziker2,and E. Delamarche11Zurich Research GmbH, SWITZERLAND and

-'University Hospital Basel, SWITZERLAND

MICRO FLUIDICS & INDUCED-CHARGE ELECTROKINETIC FLOWS 581

F. Schonfeld'andS. Flardt1'2'Institut fiir Mikrotechnik Mainz GmbH, GERMANY and

2Darmstadt University of Technology, GERMANY

MICROFLUIDIC CHIP FOR MASS SPECTROMETRIC ANALYSIS

OF MULTIPLE BIOCHEMICAL REACTIONS 584

S.-H. Lee1, C.-S. Lee2, B.-G. Kim1, and Y.-K. Kim1

'Seoul National University, KOREA and 2Chungnam National University, KOREA

MICROPUMPING USING THIN HYBRID BIOPOLYMER MEMBRANE 587

J.Y. Park1,1.C. Kim2, J.M. Cha1, J.H. Lee2, and B.K. Kim1

'Korea Institute ofScience and Technology (KIST), KOREA and

2Seoul National University, KOREA

OPTICALLY DRIVEN MICROPUMP PRODUCED BY

TWO-PHOTON M1CROSTEREOLITHOGRAPHY 590

S. Maruo and H. Inoue

Yokohama National University, JAPAN

PERFLUOROPOLYETHERS AS NOVEL MATERIALS FOR

SOLVENT RESISTANT MICROFLUIDIC DEVICES 593

J.P. Rolland1, G.M. Denison1, and J.M. DeSimone2

'Liquidia Technologies, Inc., USA and2University ofNorth Carolina at Chapel Hill, USA

PROGRAMMING OF CAPILLARY EFFECTS FOR LIQUID

CONFINEMENT AND AUTOMATIC FLOW CONTROL IN

MICROFLUIDIC PROBES596

D. Juncker1'2, H. Schmid1, and E. Delamarche1

'IBMResearch GmbH, SWITZERLAND and 2ETHZurich, SWITZERLAND

XXXV

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SAW LAB-ON-CHIP IN VIEW OF PROTEIN AFFINITY PURIFICATION

IMPLEMENTED FROM NANODROPLET TRANSPORT 599

A. Renaudin1, K. Chuda2, V. Zhang1, X. Coqueret2, J.-C. Camart1,

P. Tabourier1, and C. Druon1

'IEMN, FRANCE and 2LCOM, FRANCE

SLIDING QUANTITATIVE NANOLITER DISPENSING DEVICE

FOR MULTIPLE ANALYSISt

602

M. Kuwata1, K. Sakamoto1, Y. Murakami1, K. Morishima1, II. Sudo"',M. Kitaoka1, and T. Kitamori3

'The Research Association ofMicro Chemical Process Technology, JAPAN,2Toshiba Corporation, JAPAN, and'University ofTokyo, JAPAN

THEORETICAL ANALYSIS AND MICROFABRICATION OF AN

ALL-IN-CHANNEL CHEMICAL GRADIENT GENERATOR FOR

CHEMOTAXIS ASSAYS 605

D. Irimia1, DA. Geba2, and M. Toner3

'Massachusetts General Hospital, USA,2

University ofCalifornia at Berkeley, USA, and

3Harvard Medical School, USA

oster Session Microfluidics - Fluid Mechanics and Modeling

AN INTEGRATED, HIGH FLOW RATE MEMS FERROFLUID PUMP 607

L. Mao and H. Koser

Yale University, USA

COMPLEX FLUIDS RHEOLOGY IN MICROCHANNELS

USING A MICRO-PIV TECHNIQUE 611

G. Degre1, P. Joseph1, H. Willaime1, P. Tabeling1, S. Lerouge\M. Goitre3, J.-B. Fournier1, and A. Ajdari1'ESPCI, FRANCE, 2MSC, FRANCE, and 3MMC, FRANCE

MEASUREMENT OF NANO PARTICLE CONCENTRATION

NEAR SURFACE IN MICRO CHANNEl 614

K. Kanda and M. YangTokyo Metropolitan University, JAPAN

MILLION-FOLD SAMPLE STACKING USING

ON-CHIP 1SOTACHOPHORESIS 617B. Jung1, II. Lin1, R, Bharadwaj1, B. Mohammad!2, and J.G. Santiago1'Stanford University, USA and ''University ofMontpellier II, FRANC 'E

QUANTITATIVE VELOCITY MEASUREMENTS OF

LAMBDA-DNA TRANSPORT IN MICRODEVICES 620

S. Gulati, S.J. Muller, and D. LiepmannUniversity ofCalifornia at Berkeley, USA

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Poster Session Microfluidics - Multi Phase Fluidics

A MICROFLUIDIC SENSOR FOR 1NTERFACIAL

TENSION MEASUREMENT 623

NT. Nguyen, S. Lassemono, F.A. Chollet, and C. YangNanyang Technological University, SINGAPORE

BOTH INTERNAL AND EXTERNAL FLOW FIELDS

MEASUREMENTS IN AND AROUND A MICRO-DROPLET

FORMED IN A MICROCHANNEL 626

S.Y. Yoon1, J.M. Kim2, and K.C. Kim1'Pusan National University, KOREA and2LG Electronics, Inc., KOREA

CONFOCAL MICRO-PIV MEASUREMENT OF INTERNAL FLOW

IN A MOVING DROPLET 629

11. Kinoshita, M. Oshima, S. Kaneda, and T. Fujii

University ofTokyo, JAPAN

GAS-LIQUID CROSSING FLOW INSIDE A MICROCHANNEL 632

H. llachiya1'2, M. Tokeshi',M. Kitaoka1, and T. Kitamori3,4'The Research Association of Micro Chemical Process Technology', JAPAN,2DKK-TOA Corporation, JAPAN,

3Kanagawa Academy ofScience and Technology,

JAPAN, and4 University ofTokyo, JAPAN

MONODISPERSE DROPLET TRAINS AND SEGMENTED

FLOW FOR CENTRIFUGAL MICROFLUIDICS 635

S. Haeberle, R. Zengerlc, and J. Ducree

IMTEK. University ofFreiburg, GERMANY

NUMERICAL ANALYSIS OF MICRO DROPLET GENERATION

USING A PARTICLE^METHOD 638

T, Harada1, Y. Suzuki2, S. Koshizuka1, T. Arakawa3, and S. Shoji3'University of Tokyo, JAPAN,

2Japan Science and Technology Agency, JAPAN, and

3Waseda University, JAPAN

Poster Session Microfluidics - World-to-Chip Interfacing

ELECTRICAL AND FLUIDIC INTERFACE OF A POLYMERIC

MICROFLUIDIC DEVICE WITH PRINTED CIRCUIT BOARD 641

M. Mueller1-2, M. Khine1,2, C. lonescu-Zanetti',N. Patel1, J. Seo1, andL.P. Lee1'University ofCalifornia at Berkeley, USA and

2University ofCalifornia at San Francisco, USA

INTEGRATED CHIP AND PACKAGE DESIGN FOR

SURFACE-CONTROLLED BIOREACTION PROCESSES

WITH ROBUST, REUSABLE FLUIDIC SEALING 644

J.J. Park, T.M. Valentine, R. Ghodssi, and G.W. Rubloff

University ofMaryland, USA

XXXVII

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USER-FRIENDLY ONETOUCH LOCK AND DETACHABLE

MICROFLUIDIC CONNECTOR 647

K. Morishima1'2, Y. Kikutani2"3, M. Kitaoka2, and T. Kitamori2'4

'Tokyo University ofAgriculture and Technology, JAPAN,2

Kanagawa Academy ofScience and Technology (KAST), JAPAN,3The Research Association ofMicro Chemical Process Technology, JAPAN, and

4University of Tokyo, JAPAN

Poster Session Microfluidics - Others

MULTI-CHANNEL MICROFLUIDIC IMMUNOASSAY CHIP FOR

SIMULTANEOUS MULTIPLE ANALYTE DETECTION USING

ELECTROSPRAY DEPOSITION METHOD 650

Y, Yamagata1, A. Tajima2,T. Nagamune2, H. Aoki3, II. Kase\ S. Hoshina"',I, Kondo4, and II. Ohmori''RIKEN, JAPAN, "'University of Tokyo, JAPAN, 3Fuence Co. Ltd., JAPAN, and

4Jikei University School ofMedicine, JAPAN

STATIONARY CHEMICAL GRADIENT REACTORS IN THE

SEARCH FOR ARTIFICIAL CELLS 654

J.S. McCaskill', S, Ehses2, S. Chemnitz', U. Tangen', T. Maeke', M. Jiinger',T. Palutke2, and P.F. Wagler2'Ruhr-Universitdt-Bochum, GERMANYand' Fraunhofer Gese/lsehaft, GERMANY

TEMPERATURE CONTROL OF MICROFLUIDIC SYSTEMS BY

MICROWAVE HEATING 657

S.G. Sundaresan', B.J. Polk2, D.R. Reyes2, M.V. Rao', and M. Ciailair

'George Mason University, USA and2National Institute ofStandards and Technology, USA

Poster Session Microfabrication - MEMS

A MICRO-POST PRECONCENTRATOR FOR A MICROSCALE

GAS CHROMATOGRAPHY SYSTEM 660

Y. Tang, J. Ycom, J, Han, B. Bae, R.I. Masel, and M.A. Shannon

University ofIllinois at Urbana-Champaign, USA

FABRICATION OF THREE DIMENSIONAL

MICROCHANNELS IN SU8 663

A. Gracias, B. Xu, and J. Castracane

University at Albany - SUNY, USA

FLUID-STRUCTURE TRAVELING WAVE: FILTERS BASED ONTHE MAMMALIAN COCHLEA 666R.D. White and K. Grosh

University ofMichigan, USA

XXXVIII

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HIV DIAGNOSTICS FOR RESOURCE-LIMITED SETTINGSUSING MEMS BASED TECHNIQUES 669U. Demirci1'2'3, M. Dixon2, D. Irimia1'2-3, X. Cheng1-2'3, L. Zamir2,W.R. Rodriguez2, and M. Toner1'2'31Harvard Medical School, USA, 2Massachusetts General Hospital, USA, and3Shriners Burns Institute, USA

NOVEL MATERIAL PATTERNING FOR ELECTRONIC ANDMAGNETIC COMPONENTS ON PDMS 672R. Carlson, J. Koschwanez, and D. Meldrum

University of Washington, USA

Poster Session Microfabrication - Micrornachining

A NEW NEURAL RECORDING ELECTRODE ARRAY WITH

PARYLENE INSULATING LAYER 675C. Pang, J.G. Cham, Z. Nenadic, Y.-C. Tai, J.W. Burdick, and R.A. Andersen

California Institute ofTechnology, USA

FABRICATION AND CHARACTERIZATION OF PLANAR

NANOFLUID1C CHANNELS AND MASSIVELY-PARALLEL

VERTICAL NANOFLUIDIC MEMBRANES 678

P. Mao and J. Han

Massachusetts Institute ofTechno log)', USA

FABRICATION OF MICROPIPETTE CHIPS FOR SIMULTANEOUS

ELECTROPHYSIOLOGICAL AND OPTICAL MEASUREMENTS 681

A. Minamino1, K. Takahashi', T. Akagi', and T. Ichiki''2'University ofTokyo, JAPAN and

2

Japan Science and Technology Agency (JST), JAPAN

Posler Session Microfabrication - Polymer Technology

A COLLAPSE-FREE THERMAL BONDING TECHNIQUE FOR PLASTIC

MICROFLUIDIC SYSTEMS WITH LARGE AREA MICROCHAMBERS 684

D.S. Kim', U.S. Lee', T.H. Kwon1, and C.H. Aim2'Pohang University ofScience and Technology, KOREA and2University ofCincinnati, USA

CHARACTERIZATION OF A NEW GENERIC 3D POLYMER

TECHNOLOGY FOR MICROTAS 687

P. Abgrall1, K. Chuda2, X. Coqueret2, and A.M. Gue1

'LAAS/CNRS, FRANCE and 2LCOM, FRANCE

XXXIX

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CONSTRUCTION OF INTEGRATED MICRO- AND NANOFLUIDIC

SYSTEMS: APPLICATION OF PHOTOPOLYMERIZATIONS AND

BLOCK COPOLYMER SELF ASSEMBLY 690

J.B. Hutchison, K.P. Brazhnik, and L.E. Locascio

National Institute ofStandards and Technology, USA

FACILE FABRICATION OF MICROFLUIDIC SYSTEMS

USING ELECTRON BEAM LITHOGRAPHY 693

P. Mali, A. Sarkar, and R. Lai

Indian Institute ofTechnology Bombay, INDIA

EMBEDDING MICROSCALE METAL PATTERNS IN

POLYDIMETHYLSILOXANE SUBSTRATE 696

K.S. Lim1'2, W.-J. Chang2, Y.-M. Koo1'2, and R. Bashir1;Weldon School ofBiomedical Engineering, USA and"'Inha University, KOREA

POLYMER REPLICATED 1NTERDIGITATED ELECTRODE:

ARRAYS AND THEIR APPLICATION IN MULTIPARAMETER

MOLECULAR DIAGNOSTICS „699

P. Jacobs', G. Van Reybroeck1, J. Suls2, W. Layreyn2, C. Van Hoof2,

P. Detemple3, and R. Rossau1

'InnogeneticsN.V., BELGIUM, 2IMEC Vzw., BELGIUM, and

3IMM, GmbH, GERMANY

POLYMERIC ENCAPSULATION OF LIQUID USING MICROFLUIDIC

DEVICE AND "ON THE FLY" PHOTOPOLYMERIZATION 702

H.J. Oh, S.H. Kim, D.J. Kim, G.H, Kwon, and S.I I. Lee

Dankook University, KOREA

SCALABILITY OF INSULATOR-BASED DIELECTROPHORESIS (IDEP)

AND ITS UTILIZATION AS A HIGH-THROUGHPUT PARTICLE

CONCENTRATOR AND SEPARATOR 705

G.J. McGraw, R.V. Davalos, B.M. Mittal, S.M. Ferko, M.C. Hunter,

J.D. Brazzle, Y. Fintschenko, E.B. Cummings, and B.A. Simmons

Saudia National Laboratories, USA

Poster Session Microfabrication - Others

COFIRED CERAMIC MICRODEV1CES FOR HIGH TEMPERATURE

AND HIGH PRESSURE APPLICATIONS 709

K.D. Patel, K.W. Hukari, and K.A. Peterson

Sandia National Laboratories, USA

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Poster Session Nanotechnology - Nanobiotechnology

AMPLIFIED SINGLE MOLECULE DETECTION IN A

THERMOPLASTIC MICROFLUIDIC SYSTEM 712J. Jarvius, J. Melin, J. Goransson, H. Johansson, F. Nikolajeff, U. Landegren,and M. Nilsson

Uppsala University, SWEDEN

COMPLETE EXTENSION OF CHROMOSOMAL DNAAND ITS MANIPULATION USING OPTICALLY-DRIVEN

MICRO-FABRICATED HOOKS 715K. Terao1, H. Kabata2, H. Oana', and M. Washizu1'University of Tokyo, JAPAN and2Kyoto University, JAPAN

SPECTRAL AND MOBILITY MEASUREMENTS OF SINGLE

FLUORESCENT NANOBARCODES IN SUBMICROMETER

FLUIDIC CHANNELS 718

S. Stavis, J. Edel, Y. Li, K. Samiee, D. Luo, and H.G. CraigheadCornell University, USA

DNA SAMPLE PREPARATION FOR STM/STS

BY NANOLITHOGRAPHY 721

S. Horiike, Y. Oikawa, and T. Nishimoto

Shimadzu Corporation, JAPAN

FABRICATION OF CUSTOMIZED BIOACTIVATED

NANOPORE DEVICES 724

A.H. Talasaz, D. Pantelis, M. Ronaghi, F. Pease, and R. W. Davis

Stanford University, USA

MANIPULATION OF COILED DNA MOLECULES BY FORMATION

AND LASER TRAP OF THERMOREVERSIBLE HYDROGEL 727

F. Arai, K. Yoshikawa, A. Ichikawa, H. Maruyama, and T. Fukuda

Nagoya University, JAPAN

Poster Session Nanotechnology - Nanofluidics

SIMPLE AND QUICK DETECTION OF TARGET DNA BY

HYBRIDIZATION IN NANO GAP CHANNEL ARRAY 730

S. Hashioka, R. Ogawa, A. Oki, Y. Miyahara, and Y. Horiike

National Institutefor Materials Science, JAPAN

SIMULATION OF ELECTROKINETIC TRANSPORT IN

SILICA NANOCHANNELS 733

S. Joseph, A.N. Chatterjee, and N.R. Aluru

University ofIllinois at Urbana-Champaign, USA

xli

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WATERVISCOSITY AND HYDRODYNAMIC FLOW

IN NANOPILLAR CHIPS 736

N. Kaji', A. Oki2, R. Ogawa2, Y. Horiike2, and Y. Baba1'3

'Nagoya University, JAPAN, ~National Institutefor Materials Science, JAPAN, and3National Institute ofAdvanced Industrial Science and Technology, JAPAN

Poster Session Nanotechnology - Nanoengineering

CONTROLLABLE NANO-GAP MECHANISM FOR

CHARACTERIZATION OF NANO-SCALE OBJECTS 739

M. Gel1, T. Edura2, Y. Wada2, and H. Fujila1'

University ofTokyo, JAPAN and"' Waseda University, JAPAN

MAPPING THE LIGHT EMERGING FROM NANOSCALE APERTURES 742

S.C. Jacobson, N.D. Rawlinson, D. Amarie, M.L. Kovarik, W.L. Sehaieh,

and B, DragneaIndiana University, USA

Poster Session Materials & Surfaces - Surface Modification

A SIMPLE HYDROPHIL1C TREATMENT OF SU-8 SURFACES FOR

CELL CULTURING AND CELL PATTERNING 745

Z. Wang, M. Stangegaard, M. Duiva, J.P. Kulter, and A. Wolff

Technical University ofDenmark, DENMARK

EFFECT OF SURFACTANTS ON ELECTROOSMOTIC FLOW AND

TRAPPING BEHAVIOR IN A POLYMERIC INSULATOR-BASED

DIELECTROPHORETIC (iDEP) DEVICE 748

G.J. McGraw, K. Lee Krafcik, T.I. Wallow, M.C. 1 lunter, A.M. Morales,

R.V. Davalos, Y, Fintschenko, E.B. Cummings, and B.A. Simmons

Sanclia National Laboratories, USA

ELECTROPHORETIC PROTEIN SEPARATION USING

ELECTROOSMOTIC FLOW INDUCED BY DYNAMIC

SDS-COATING OF PLASTIC CHIPS 752

H. Nagata', M. Tabuchi2, K. Hirano', Y. Baba1'2-3, and M, lshikawa''National Institute ofAdvanced Industrial Science and Technology (AIST), JAPAN,

2University ofTokushima, JAPAN, and3Nagoya University, JAPAN

INTEGRATED CIRCUIT AND MICRO-FABRICATION

COMPATIBLE MATERIALS FOR PROTEIN BINDING 755

M. Anwar1, T. Aytur2, J. Foley2, P.R. Beatty2, and B. Boser

'Massachusetts Institute ofTechnology, USA and \2

University ofCalifornia at Berkeley, USA

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