 | Nanotech 2008 Vol. 3
Nanotechnology 2008: Microsystems, Photonics, Sensors, Fluidics, Modeling, and Simulation - Technical Proceedings of the 2008 NSTI Nanotechnology Conference and Trade Show, Volume 3
Chapter 3: Lab-on-a-Chip, Micro & Nano Fluidics |
| - | MEMS based examination platform for a neuro-muscular communication in a co-culture system coupled to a multi-electrode-array |
| | M. Fischer, M. Klett, U. Fernekorn, C. Augspurger, A. Schober |
| | Technische Universität Ilmenau, DE |
| - | GRAVI-Chip: Automation of Microfluics Affinity Assay based on Magnetic Nanoparticle |
| | J.S. Rossier, S. Baranek, P. Morier, F. Vulliet, C. Vollet, F. Reymond |
| | DiagnoSwiss SA, CH |
| - | One-step White Blood Cell Separation from Whole Blood |
| | J-M Park, B-C Kim, J-G Lee |
| | Samsung Advanced Institute of Technology (SAIT), KR |
| - | Detection of Clinical Biomarkers using a novel parabolic microchip diagnostic platform |
| | D. Hill, S. Hearty, L. Basabe-Desmonts, R. Blue, C. McAtamney, R. O’Kennedy, B. MacCraith |
| | Dublin City University, IE |
| - | One-step Target Protein detection from Whole Blood in a Lab-on-a-Disc |
| | B.S. Lee, J.G. Lee, J.N. Lee, J.M. Park, Y.K. Cho, S. Kim, C. Ko |
| | Samsung Advanced Institute of Technology, KR |
| - | Using Microfluidics for Metabolic Monitoring of Single Embryo Cultures |
| | T. Thorsen, J.-P. Urbanski, M.T. Johnson, D.D. Craig, D.L. Potter, D.K. Gardner |
| | Massachusetts Institute of Technology, US |
| - | DNA Extraction Chip Using Key-type Planar Electrodes |
| | S.M. Azimi, W. Balachandran, J. Ahern, P. Slijepcevic, C. Newton |
| | Brunel University, UK |
| - | Amperometric glucose sensor for real time extracellular glucose monitoring in microfluidic device |
| | I.A. Ges, F.J. Baudenbacher |
| | Vanderbilt University, US |
| - | Optimizing Multiscale Networks for Transient Transport in Nanoporous Materials |
| | R.H. Nilson, S.K. Griffiths |
| | Sandia National Laboratories, US |
| - | Ultrasound-driven viscous streaming, modelled via momentum injection |
| | J. Packer, D. Attinger, Y. Ventikos |
| | University of Oxford, UK |
| - | Fluidic and Electrical Characterization of 3D Carbon Dielectrophoresis with Finite Element Analysis |
| | R. Martinez-Duarte, E. Collado-Arredondo, S. Cito, S.O. Martinez, M. Madou |
| | University of California, Irvine, US |
| - | Generation of picoliter and nanoliter drops on-demand in a microfluidic chip |
| | J. Xu, D. Attinger |
| | Columbia University, US |
| - | Hollow Atomic Force Microscopy Probes for Nanoscale Dispensing of Liquids |
| | A. Meister, J. Przybylska, P. Niedermann, C. Santschi, H. Heinzelmann |
| | CSEM SA, CH |
| - | Electrostatic Induced Inkjet Printing System for Micro Patterning and Drop-On-Demand Jetting Characteristics |
| | J. Choi, Y-J. Kim, S.U. Son, Y. Kim, S. Lee, D. Byun, H.S. Ko |
| | Sungkyunkwan University, KR |
| - | A Novel Parallel Flow Control (PFC) System for Syringe-Driven Nanofluidics |
| | H. Liang, W.J. Nam, S.J. Fonash |
| | The Pennsylvania State University, US |
| - | Integrated Thermal Modulation and Deflection of Viscous Microjets with Applications to Continuous Inkjet Printing |
| | E.P. Furlani, K.C. Ng, A.G. Lopez, C. Anagnostopoulos |
| | Eastman Kodak, US |
| - | Micro bioreactor for muliwell plates with an active micro fluidic system for 3D cultivation |
| | F. Weise, C. Augspurger, M. Klett, A. Schober |
| | Technische Universität Ilmenau, DE |
| - | Discrete Volume Controllable Microdispenser Module |
| | S. Lee, J. Lee |
| | Seoul National University, KR |
| - | Fabrication and Characterization of Thermo-pneumatic Peristaltic Micropumps |
| | H-H Liao, W-C Liao, Y-J Yang |
| | National Taiwan University, TW |
| - | Discrete Mixing of Nanoliter Drops in Microchannels |
| | M. Rhee, M.A. Burns |
| | University of Michigan, US |
| - | Modeling Magnetic Transport of Nanoparticles with Application to Magnetofection |
| | E.P. Furlani, K.C. Ng |
| | University at Buffalo, US |
| - | Micron Particles Segregation in Lower Electric Field Regions in Very Dilute Neutrally Buoyant Suspensions |
| | Z.Y. Qiu, Y. Shen, S. Tada, D. Jacqmin |
| | The City College of New York, US |
| - | Limitations of DNA High-frequency Anchoring and Stretching |
| | H. Dalir, T. Nisisako, T. Endo, Y. Yanagida, T. Hatsuzawa |
| | Tokyo Institute of Technology, JP |
| - | A High Throughput Multi-stage, Multi-frequency Filter and Separation Device based on Carbon Dielectrophoresis |
| | R. Martinez-Duarte, J. Andrade-Roman, E. Collado-Arredondo, S.O. Martinez, M. Madou |
| | University of California, Irvine, US |
| - | Lateral-Driven Continuous Dielectrophoretic Separation Technology for Blood Cells suspended in a Highly Conductive Medium |
| | J. Seo, J. Jung, S-I. Han, K-H Han, Y. Jung, A. Bruno Frazier |
| | Inje University, KR |
| - | Characterization of DNA Transport through a Semipermeable Membrane with the Effect of Surfactants |
| | S.W. Leung, S. Bartolin, C.K. Daniels, J.C.K. Lai |
| | Idaho State University, US |
| - | Nanoparticles and Ultrahigh 21 tesla MRI Microimaging of Mice Brain |
| | R. Sharma |
| | FLorida State University, US |
| - | Study on fluorescent detection glucose molecule marked with ZnSe nano crystalline in microchannels |
| | Z-C Bai, S-J Qin |
| | Guizhou University, CN |
| - | ‘Lab on a chip’ Label Free Protein Sensor Systems Based on Polystyrene Bead and Nanofibrous Solid Supports |
| | V. Kunduru, S. Prasad, P.K. Patra, S. Sengupta |
| | Portland State University, US |
| - | Nanomonitors: Electrical Immunoassays for Protein Biomarker Profiling |
| | M.G. Bothara, R.K. Reddy, T. Barrett, J. Carruthers, S. Prasad |
| | Portland State University, US |
| - | Ultra-sensitive Electrochemical Detection of E. coli Using Nano-porous Alumina Membrane |
| | N.N. Mishra, W.C. Maki, B. Filanoski, M. Fellegy, E. Cameron, S.K. Rastogi, G. Maki |
| | University of Idaho, US |
| - | Ferromagnetic Resonance Biochip for Diagnosing Pancratic Cancer |
| | E. Casler, S. Chae, V. Kunduru, M. Bothara, E. Yang, S. Ghionea, P. Dhagat, S. Prasad |
| | Portland State University, US |
| - | Chemically modified polacrylic acid monolayers in alumina nanoporous membranes for cancer detection |
| | S.V. Atre, N. Monfared, M. Bothara, S. Prasad, S. Varadarajan |
| | Oregon Nanoscience & Microtechnologies Insittute, US |
| - | SPRi signal amplification by organothiols-nanopattern |
| | P. Lisboa, A. Valsesia, I. Mannelli, P. Colpo, F. Rossi |
| | JRC-European Commission, IT |
| - | Purification of Nanoparticles by Hollow Fiber Diafiltration |
| | D. Bianchi, D. Serway, W. Tamashiro |
| | Spectrum Laboratories, US |
| - | Gaseous Flows and Heat Transfer through Micro- and Nano-channels |
| | H. Sun, P. Wang, S. Liu, M. Song, M. Faghri |
| | University of Massachusetts Lowell, US |
| - | Enhanced fluid transport through carbon nanopipes |
| | M. Whitby, L. Cagnon, M. Thanou, N. Quirke |
| | Imperial College, UK |
| - | Electrokinetic Flows in Highly Charged Micro/Nanochannel with Newtonian Boundary Slip Condition |
| | M.-S. Chun, J.H. Yun, T.H. Kim |
| | Korea Institute of Science and Technology (KIST), KR |
| - | Size Effect on Nano-Droplet Spreading on Solid Surface |
| | N. Sedighi, S. Murad, S. Aggarwal |
| | University of Illinois at Chicago, US |
| - | Experimental and Numerical Studies of Droplet and Particle Formation in Electrohydrodynamic Atomization |
| | J. Hua, L.K. Lim, C-H Wang |
| | Institute of High Performance Computing, SG |
| - | A capillary effect based microfluidic system for high throughput screening of yeast cells |
| | M. Mirzaei, D. Juncker |
| | McGill University, CA |
| - | Dielectrophoretic characterization and separation of metastatic variants of small cell lung cancer cells |
| | A. Menachery, J. Burt, S. Chappell, R.J. Errington, D. Morris, P.J. Smith, M. Wiltshire, E. Furon, R. Pethig |
| | Bangor University, UK |
| - | External Field Induced Non-Uniform Growth of Micron Composite Materials in Insulating Liquid: Experimental and Simulating |
| | S. Tada, Y. Shen, Z.Y. Qiu |
| | The City College of New York, US |
| - | A Self-vortical Micromixer and its Application on Micro-DMFC |
| | C. Lin, C. Fu |
| | Institute of NanoEngineering and MicroSystems, TW |
| - | Pressure driven tough micro pump |
| | F. Weise, M. Klett, A. Schober |
| | Technische Universität Ilmenau, DE |
| - | Direct Current Dielectrophoretic Characterization of Erythrocytes: Positive ABO blood types |
| | S.S. Keshavamurthy, K. Leonard, S.C. Burgess, A.R. Minerick |
| | Mississippi State University, US |
| - | Ceramic Microarrays for Aggressive Environments |
| | S.V. Atre, C. Wu, K.L. Simmons, S. Laddha, K. Jain, S. Lee, S.J. Park, R.M. German |
| | Oregon Nanoscience & Microtechnologies Institute, US |
| - | Understanding Conduction Mechanisms in Nano-Structures |
| | V.H. Gehman Jr, K.J. Long, F. Santiago, K.A. Boulais, A.N. Rayms-Keller |
| | Naval Surface Warfare Center, Dahlgren Division, US |
| - | Viscosity measurements of PEO solutions by AFM with long nanowires |
| | M. Hosseini, M.M. Yazdanapanah, S. Siddique, R.W. Cohn |
| | University of Louisville, US |
| - | A lattice Boltzmann study of the non-Newtonian blood flow in stented aneurysm |
| | Y.H. Kim, S. Farhat, J.S. Lee |
| | WAYNE STATE University, US |
| - | Multiscale Design of a Laser Actuated Micro Bubble Array Acoustic-Fluidic Microdevice for Bioanalytical and Drug Delivery Applications |
| | Z.J. Chen, A.J. Przekwas |
| | CFD Research Corporation, US |
| - | A Higher-Order Approach to Fluid-Particle Coupling in Microscale Polymer Flows |
| | B. Kallemov, G.H. Miller, D. Trebotich |
| | Lawrence Livermore Natioanal Laboratory, US |
| - | Computational Microfluidics for Miniaturised Bio-Diagnostics Devices using the code “TransAT” |
| | C. Narayanan, D. Lakehal |
| | ASCOMP GmbH, CH |
| - | Simulation of RBCs Bioconcave shape Using 2_D Lattice Boltzmann |
| | H. Farhat, J.S. Lee |
| | Wayne State University, US |
| - | Numerical Modelling and Analysis of the Burning Transient in a Solid-propellant Micro-thruster |
| | J.A. Moríñigo, J. Hermida-Quesada |
| | National Institute for Aerospace Technology, ES |
| - | Numerical Analysis of Nanofluidic Sample Preconcentration in Hydrodynamic Flow |
| | Y. Wang, K. Pant, W. Diffey, Z. Chen, S. Sundaram |
| | CFD Research Corporation, US |
| - | MEMS based examination platform for a neuro-muscular communication in a co-culture system coupled to a multi-electrode-array |
| | M. Fischer, M. Klett, U. Fernekorn, C. Augspurger, A. Schober |
| | Technische Universität Ilmenau, DE |
| - | GRAVI-Chip: Automation of Microfluics Affinity Assay based on Magnetic Nanoparticle |
| | J.S. Rossier, S. Baranek, P. Morier, F. Vulliet, C. Vollet, F. Reymond |
| | DiagnoSwiss SA, CH |
| - | One-step White Blood Cell Separation from Whole Blood |
| | J-M Park, B-C Kim, J-G Lee |
| | Samsung Advanced Institute of Technology (SAIT), KR |
| - | Detection of Clinical Biomarkers using a novel parabolic microchip diagnostic platform |
| | D. Hill, S. Hearty, L. Basabe-Desmonts, R. Blue, C. McAtamney, R. O’Kennedy, B. MacCraith |
| | Dublin City University, IE |
| - | One-step Target Protein detection from Whole Blood in a Lab-on-a-Disc |
| | B.S. Lee, J.G. Lee, J.N. Lee, J.M. Park, Y.K. Cho, S. Kim, C. Ko |
| | Samsung Advanced Institute of Technology, KR |
| - | Using Microfluidics for Metabolic Monitoring of Single Embryo Cultures |
| | T. Thorsen, J.-P. Urbanski, M.T. Johnson, D.D. Craig, D.L. Potter, D.K. Gardner |
| | Massachusetts Institute of Technology, US |
| - | DNA Extraction Chip Using Key-type Planar Electrodes |
| | S.M. Azimi, W. Balachandran, J. Ahern, P. Slijepcevic, C. Newton |
| | Brunel University, UK |
| - | Amperometric glucose sensor for real time extracellular glucose monitoring in microfluidic device |
| | I.A. Ges, F.J. Baudenbacher |
| | Vanderbilt University, US |
| - | Optimizing Multiscale Networks for Transient Transport in Nanoporous Materials |
| | R.H. Nilson, S.K. Griffiths |
| | Sandia National Laboratories, US |
| - | Ultrasound-driven viscous streaming, modelled via momentum injection |
| | J. Packer, D. Attinger, Y. Ventikos |
| | University of Oxford, UK |
| - | Fluidic and Electrical Characterization of 3D Carbon Dielectrophoresis with Finite Element Analysis |
| | R. Martinez-Duarte, E. Collado-Arredondo, S. Cito, S.O. Martinez, M. Madou |
| | University of California, Irvine, US |
| - | Generation of picoliter and nanoliter drops on-demand in a microfluidic chip |
| | J. Xu, D. Attinger |
| | Columbia University, US |
| - | Hollow Atomic Force Microscopy Probes for Nanoscale Dispensing of Liquids |
| | A. Meister, J. Przybylska, P. Niedermann, C. Santschi, H. Heinzelmann |
| | CSEM SA, CH |
| - | Electrostatic Induced Inkjet Printing System for Micro Patterning and Drop-On-Demand Jetting Characteristics |
| | J. Choi, Y-J. Kim, S.U. Son, Y. Kim, S. Lee, D. Byun, H.S. Ko |
| | Sungkyunkwan University, KR |
| - | A Novel Parallel Flow Control (PFC) System for Syringe-Driven Nanofluidics |
| | H. Liang, W.J. Nam, S.J. Fonash |
| | The Pennsylvania State University, US |
| - | Integrated Thermal Modulation and Deflection of Viscous Microjets with Applications to Continuous Inkjet Printing |
| | E.P. Furlani, K.C. Ng, A.G. Lopez, C. Anagnostopoulos |
| | Eastman Kodak, US |
| - | Micro bioreactor for muliwell plates with an active micro fluidic system for 3D cultivation |
| | F. Weise, C. Augspurger, M. Klett, A. Schober |
| | Technische Universität Ilmenau, DE |
| - | Discrete Volume Controllable Microdispenser Module |
| | S. Lee, J. Lee |
| | Seoul National University, KR |
| - | Fabrication and Characterization of Thermo-pneumatic Peristaltic Micropumps |
| | H-H Liao, W-C Liao, Y-J Yang |
| | National Taiwan University, TW |
| - | Discrete Mixing of Nanoliter Drops in Microchannels |
| | M. Rhee, M.A. Burns |
| | University of Michigan, US |
| - | Modeling Magnetic Transport of Nanoparticles with Application to Magnetofection |
| | E.P. Furlani, K.C. Ng |
| | University at Buffalo, US |
| - | Micron Particles Segregation in Lower Electric Field Regions in Very Dilute Neutrally Buoyant Suspensions |
| | Z.Y. Qiu, Y. Shen, S. Tada, D. Jacqmin |
| | The City College of New York, US |
| - | Limitations of DNA High-frequency Anchoring and Stretching |
| | H. Dalir, T. Nisisako, T. Endo, Y. Yanagida, T. Hatsuzawa |
| | Tokyo Institute of Technology, JP |
| - | A High Throughput Multi-stage, Multi-frequency Filter and Separation Device based on Carbon Dielectrophoresis |
| | R. Martinez-Duarte, J. Andrade-Roman, E. Collado-Arredondo, S.O. Martinez, M. Madou |
| | University of California, Irvine, US |
| - | Lateral-Driven Continuous Dielectrophoretic Separation Technology for Blood Cells suspended in a Highly Conductive Medium |
| | J. Seo, J. Jung, S-I. Han, K-H Han, Y. Jung, A. Bruno Frazier |
| | Inje University, KR |
| - | Characterization of DNA Transport through a Semipermeable Membrane with the Effect of Surfactants |
| | S.W. Leung, S. Bartolin, C.K. Daniels, J.C.K. Lai |
| | Idaho State University, US |
| - | Nanoparticles and Ultrahigh 21 tesla MRI Microimaging of Mice Brain |
| | R. Sharma |
| | FLorida State University, US |
| - | Study on fluorescent detection glucose molecule marked with ZnSe nano crystalline in microchannels |
| | Z-C Bai, S-J Qin |
| | Guizhou University, CN |
| - | ‘Lab on a chip’ Label Free Protein Sensor Systems Based on Polystyrene Bead and Nanofibrous Solid Supports |
| | V. Kunduru, S. Prasad, P.K. Patra, S. Sengupta |
| | Portland State University, US |
| - | Nanomonitors: Electrical Immunoassays for Protein Biomarker Profiling |
| | M.G. Bothara, R.K. Reddy, T. Barrett, J. Carruthers, S. Prasad |
| | Portland State University, US |
| - | Ultra-sensitive Electrochemical Detection of E. coli Using Nano-porous Alumina Membrane |
| | N.N. Mishra, W.C. Maki, B. Filanoski, M. Fellegy, E. Cameron, S.K. Rastogi, G. Maki |
| | University of Idaho, US |
| - | Ferromagnetic Resonance Biochip for Diagnosing Pancratic Cancer |
| | E. Casler, S. Chae, V. Kunduru, M. Bothara, E. Yang, S. Ghionea, P. Dhagat, S. Prasad |
| | Portland State University, US |
| - | Chemically modified polacrylic acid monolayers in alumina nanoporous membranes for cancer detection |
| | S.V. Atre, N. Monfared, M. Bothara, S. Prasad, S. Varadarajan |
| | Oregon Nanoscience & Microtechnologies Insittute, US |
| - | SPRi signal amplification by organothiols-nanopattern |
| | P. Lisboa, A. Valsesia, I. Mannelli, P. Colpo, F. Rossi |
| | JRC-European Commission, IT |
| - | Purification of Nanoparticles by Hollow Fiber Diafiltration |
| | D. Bianchi, D. Serway, W. Tamashiro |
| | Spectrum Laboratories, US |
| - | Gaseous Flows and Heat Transfer through Micro- and Nano-channels |
| | H. Sun, P. Wang, S. Liu, M. Song, M. Faghri |
| | University of Massachusetts Lowell, US |
| - | Enhanced fluid transport through carbon nanopipes |
| | M. Whitby, L. Cagnon, M. Thanou, N. Quirke |
| | Imperial College, UK |
| - | Electrokinetic Flows in Highly Charged Micro/Nanochannel with Newtonian Boundary Slip Condition |
| | M.-S. Chun, J.H. Yun, T.H. Kim |
| | Korea Institute of Science and Technology (KIST), KR |
| - | Size Effect on Nano-Droplet Spreading on Solid Surface |
| | N. Sedighi, S. Murad, S. Aggarwal |
| | University of Illinois at Chicago, US |
| - | Experimental and Numerical Studies of Droplet and Particle Formation in Electrohydrodynamic Atomization |
| | J. Hua, L.K. Lim, C-H Wang |
| | Institute of High Performance Computing, SG |
| - | A capillary effect based microfluidic system for high throughput screening of yeast cells |
| | M. Mirzaei, D. Juncker |
| | McGill University, CA |
| - | Dielectrophoretic characterization and separation of metastatic variants of small cell lung cancer cells |
| | A. Menachery, J. Burt, S. Chappell, R.J. Errington, D. Morris, P.J. Smith, M. Wiltshire, E. Furon, R. Pethig |
| | Bangor University, UK |
| - | External Field Induced Non-Uniform Growth of Micron Composite Materials in Insulating Liquid: Experimental and Simulating |
| | S. Tada, Y. Shen, Z.Y. Qiu |
| | The City College of New York, US |
| - | A Self-vortical Micromixer and its Application on Micro-DMFC |
| | C. Lin, C. Fu |
| | Institute of NanoEngineering and MicroSystems, TW |
| - | Pressure driven tough micro pump |
| | F. Weise, M. Klett, A. Schober |
| | Technische Universität Ilmenau, DE |
| - | Direct Current Dielectrophoretic Characterization of Erythrocytes: Positive ABO blood types |
| | S.S. Keshavamurthy, K. Leonard, S.C. Burgess, A.R. Minerick |
| | Mississippi State University, US |
| - | Ceramic Microarrays for Aggressive Environments |
| | S.V. Atre, C. Wu, K.L. Simmons, S. Laddha, K. Jain, S. Lee, S.J. Park, R.M. German |
| | Oregon Nanoscience & Microtechnologies Institute, US |
| - | Understanding Conduction Mechanisms in Nano-Structures |
| | V.H. Gehman Jr, K.J. Long, F. Santiago, K.A. Boulais, A.N. Rayms-Keller |
| | Naval Surface Warfare Center, Dahlgren Division, US |
| - | Viscosity measurements of PEO solutions by AFM with long nanowires |
| | M. Hosseini, M.M. Yazdanapanah, S. Siddique, R.W. Cohn |
| | University of Louisville, US |
| - | A lattice Boltzmann study of the non-Newtonian blood flow in stented aneurysm |
| | Y.H. Kim, S. Farhat, J.S. Lee |
| | WAYNE STATE University, US |
| - | Multiscale Design of a Laser Actuated Micro Bubble Array Acoustic-Fluidic Microdevice for Bioanalytical and Drug Delivery Applications |
| | Z.J. Chen, A.J. Przekwas |
| | CFD Research Corporation, US |
| - | A Higher-Order Approach to Fluid-Particle Coupling in Microscale Polymer Flows |
| | B. Kallemov, G.H. Miller, D. Trebotich |
| | Lawrence Livermore Natioanal Laboratory, US |
| - | Computational Microfluidics for Miniaturised Bio-Diagnostics Devices using the code “TransAT” |
| | C. Narayanan, D. Lakehal |
| | ASCOMP GmbH, CH |
| - | Simulation of RBCs Bioconcave shape Using 2_D Lattice Boltzmann |
| | H. Farhat, J.S. Lee |
| | Wayne State University, US |
| - | Numerical Modelling and Analysis of the Burning Transient in a Solid-propellant Micro-thruster |
| | J.A. Moríñigo, J. Hermida-Quesada |
| | National Institute for Aerospace Technology, ES |
| - | Numerical Analysis of Nanofluidic Sample Preconcentration in Hydrodynamic Flow |
| | Y. Wang, K. Pant, W. Diffey, Z. Chen, S. Sundaram |
| | CFD Research Corporation, US |
| ISBN: | 978-1-4200-8505-1 |
| Pages: | 940 |
| Hardcopy: | $199.99 |
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