 | Nanotech 2006 Vol. 2
Technical Proceedings of the 2006 NSTI Nanotechnology Conference and Trade Show, Volume 2
Chapter 8: Micro & Nano Fluidics |
| - | A Lab-on-a-Chip using Magnetic Droplets |
| | U. Lehmann, V.K. Parashar, C. Vandevyver and M.A.M. Gijs |
| | EPFL, CH |
| - | Whole Blood Pumped by Laser Driven Micropump |
| | T. Ussing, L.V. Petersen, U. Krühne and L. Højslet |
| | FluimediX, DK |
| - | Combination Ultrasonic- Dielectrophoretic Particle Traps for Particle Trapping and Sample Purification in a Microfluidic Channel |
| | O. Marina, M.D. Ward and G. Kaduchak |
| | Los Alamos National Laboratory, US |
| - | Blood dynamics in microfabricated vessel networks |
| | A.W. Mulivor, S. Shevkoplyas, C. Sun, M.W. Bitensky and L.L. Munn |
| | Massachusetts General Hospital, US |
| - | Simulation of filling of microfluidic devices using a coarse-grained continuum contact angle model |
| | C. Narayanan and D. Lakehal |
| | ASCOMP, CH |
| - | On the Motion of a Bubble through Microchannel Contractions |
| | H. Chio, M-J Jensen, X. Wang, H. Bruus and D. Attinger |
| | Columbia University, US |
| - | Superhydrophobic Nanowire Surfaces for Drop Movement Using Magnetic Fields |
| | A. Egatz-Gomez, S. Melle, A.A. García, S. Lindsay, M.A. Rubio, P. Domínguez, T. Picraux, J. Taraci, T. Clement, M. Hayes and D. Gust |
| | Arizona State University, US |
| - | Simulation of Electrokinetic Flow and Analyte Transport in Nano Channels |
| | J.J. Feng, S. Krishnamoorthy, G.W. Wang and S. Sundaram |
| | CFD Research Corporation, US |
| - | Infinitely fast reactions in micromixers |
| | J.P. Gleeson |
| | University College Cork, Ireland, IE |
| - | Electric Field Driven Motion of Flexible Polyelectrolytes – A Molecular Dynamics Study |
| | T.S. Lo, B. Khusid, A. Acrivos and J. Koplik |
| | New Jersey Institute of Technology, US |
| - | Macromodeling for Microfluidic Channels |
| | C-W Kuo, C-M Chein and Y-J Yang |
| | National Taiwan University, TW |
| - | Capillary filling speed in silicon dioxide nano-channels |
| | S.E. Jarlgaard, M.B.L. Mikkelsen, P. Skafte-Pedersen, H. Bruus and A. Kristensen |
| | Technical University of Denmark, DK |
| - | Magnetohydrodynamic (MHD) Complex Flow Generation in Microchannel |
| | D.S. Kim and T.H. Kwon |
| | Pohang University of Science and Technology (POSTECH), KR |
| - | Analysis of the Droplet Ejection for Piezoelectric-driven Industrial Inkjet Head |
| | S. Sim, S-J Park, C. Park, Y. Yoo, Y. Kim, J. Joung and Y. Oh |
| | Samsung Electro Mechanics Co., KR |
| - | Thermally Induced Marangoni Instability of Liquid Microjets with Application to Continuous Inkjet Printing |
| | E.P. Furlani, B.G. Price, G. Hawkins and A.G. Lopez |
| | Eastman Kodak Co., US |
| - | Integrated microfluidic device to monitor the cells acidification rate in nanoliter volumes using microfabricated iridium oxide electrodes |
| | I.A. Ges, B.L. Ivanov and F.J. Baudenbacher |
| | Vanderbilt University, US |
| - | Coin-Shaped Reactor in Microfluidic Devices Used for Radiopharmaceutical Synthesis |
| | A.M. Elizarov, H.C. Kolb, R.M. van Dam, J.R. Heath, H.C. Padgett, J. Huang, A. Daridon |
| | California Institute of Technology, US |
| - | Mixed-Methodology-Based System-Level Simulation of Biochemical Assays in Integrated Microfluidic Systems |
| | Y. Wang, A.S. Bedekar, S. Krishnamoorthy, S.S. Siddhaye and S. Sundaram |
| | CFD Research Corporation, US |
| - | Compact Disc (CD)-Based Automated Animal Assay |
| | N.H. Kim, C.M. Dempsey, J. Zoval, J.Y. Sze and M.J. Madou |
| | University of California, Irvine, US |
| - | DNA repair enzyme analysis on EWOD fluidic microprocessor |
| | D. Jary, A. Chollat-Namy, Y. Fouillet, J. Boutet, C. Chabrol, G. Castellan, D. Gasparutto and C. Peponnet |
| | CEA, FR |
| - | Detection and Localization of Antibody-Antigen Interactions with High Spatial Resolution on Collagen Tendons |
| | R.D. Boyd, R. Avci, M. Schweitzer, J. Wittmeyer, B. Spangler and K.M. Thieltges |
| | Cranfield University, UK |
| - | Fast and Efficient Nucleic Acid Testing by ST‘s In-CheckTM Lab-on-Chip Platform |
| | S. Conoci, P. Di Pietro, S. Petralia, M.G. Amore, F. San Biagio, G. Alaimo, G. Iacono, E. Alessi, D. Ricceri, G. Di Trapani, F. Di Francesco and M. Palmieri |
| | STMicroelectronics, IT |
| - | Optimizing antibody microarrays for high resolution SPR microscopy |
| | G. Kim, A. Nishimoto, S. Cong, E. Johnson, H.W. Guan, B. Petcavish, S. Lasky, L. Hood and C.T. Campbell |
| | Lumera Corporation, US |
| - | A Continuous Particle/Cell Sorter Using Dielectrophoresis |
| | G.R. Wang, J.J. Feng, S. Vasantgadkar, K. Pant, B. Prabhakarpandian, S. Krishnamoorthy and S. Sundaram |
| | CFD Research Corporation, US |
| - | AC Electroosmotic Fluid Flow in Electrolytes Generated by Two Coplanar Microelectrodes |
| | K. Adamiak |
| | University of Western Ontario, CA |
| - | Microchannel Mixing, Entropy and Multifractals |
| | M. Kaufman, M. Camesasca, I. Manas-Zloczower |
| | Cleveland State University, US |
| - | Computationally Efficient Models of Flow-through Affinity-based Assays |
| | D.K. Peterson, W.H. Wright and D.B. MacQueen |
| | SRI International, US |
| - | Simulation and Optimization of a Flow-Through Micro PCR Chip |
| | J. Kang, C.-C. Chen, J. Smolinski, R.A. Thomas, J.D. Tucker, G.W. Auner |
| | Industrial Technology Research Institute, TW & Wayne State University, US |
| - | Simulation of a Microfluidic Particle Concentrator and Separator |
| | C.-C. Chen and G.W. Auner |
| | Industrial Technology Research Institute, TW & Wayne State University, US |
| - | Computational experiments on three-dimensional molecular diffusion in porous media |
| | V.J. Alarcon, W. Kingery and J. Zhu |
| | Mississippi State University, US |
| - | Full Coupling Simulation of a Membrane Micropump |
| | Q. Yao, D. Xu, L.S. Pan, A.L. Melissa Teo, W.M. Ho, V.S. Peter Lee and M. Shabbir |
| | Institute of High Performance Computing, SG |
| - | Heat Transfer Cost-Effectiveness of Nanofluids |
| | D. Xu, L. Pan and Q. Yao |
| | Institute og High Performance Computing, SG |
| - | High-Throughput Screening Devices Based on Hydrophobic Microfluidics |
| | J.J. Chen, H.J. Yang, J.W. Wu, S.H. Parng and T.M. Yu |
| | Industrial Technology Research Institute, TW |
| - | Shape Oscillation and Internal Mixing in Sessile Liquid Drops using ElectroWetting-On-Dielectric (EWOD) |
| | R. Miraghaie, J.D. Sterling and A. Nadim |
| | Keck Graduate Institute, US |
| - | Microfluidic Device for Conventional and Traveling-Wave Dielectrophoresis |
| | A. Kumar, A. Acrivos, B. Khusid and C.D. James |
| | New Jersey Institute of Technology, US |
| - | Experimental Visualization of Bubble Generation and Breakup in T-junctions of Microchannels |
| | Y. Zhang, Q. Xiao, L. Cheng and L. Wang |
| | The University of Hong Kong, HK |
| - | Computational Heat Transfer and Two-phase Flow in Miniature Tubes |
| | D. Lakehal and C. Narayanan |
| | ASCOMP, CH |
| - | DNA Extraction with Parallel Electrodes on Microfluidic System |
| | S.H. Parng, T.K. Shia, H.J. Yang and C.H. Kuo |
| | Microsystem Technology Common Laboratory, TW |
| - | Microfluidic System for Assessing the Controllability of MC-1 Magnetotactic Bacteria as Carriers in Micro-channels |
| | Z. Lu and S. Martel |
| | NanoRobotics Laboratory, CA |
| - | Microfluidics and Rheology of Carbon Black Dilute Suspensions: Modeling, Measurement, and Applications |
| | C. Aramphongphun, O. Hemminger, J.M. Castro and L.J. Lee |
| | The Ohio State University, US |
| - | Synthesis of Shear Thickening Fluid Using Sonochemical Method |
| | V.K. Rangari, T.A. Hassan, H. Mahfuz and S. Jeelani |
| | Tuskegee University, US |
| - | A Micromachined Sparse Cell Isolation Device: Application in Prenatal Diagnostics |
| | H. Mohamed, J.N. Turner and M. Caggana |
| | Wadsworth Center, New York State Department of Health, US |
| - | Chemically Robust Microfluidic Devices for Radiochemistry Platforms |
| | J.P. Rolland, A. Elizarov, J. Brewster, J.R. Heath and J.M. DeSimone |
| | Liquidia Technologies, US |
| - | Chaotic flows in microchannels: A lattice Boltzmann study |
| | F. Varnik and D. Raabe |
| | Max-Planck Institut fuer Eisenforschung, DE |
| - | Microfluidic T-Form Mixer Utilizing Pressure Disturbances |
| | Y.B. Ma, M. Fields, C.P. Sun, F.Y. Zhang, J.C. Liao, Y. Li, B.M. Churchill and C.M. Ho |
| | University of California at Los Angeles, US |
| - | Thermal modeling of a PMMA microfluidic separation chip |
| | Y. Zhu and A. Bui |
| | CSIRO Australia, AU |
| - | Cell and Particle Concentration on the Chip |
| | D. Irimia and M. Toner |
| | Massachusetts General Hospital, Harvard Medical School, US |
| - | Modeling multi-scale liquid dispersion phenomena in conjunction with Computational Fluid Dynamics |
| | S. Mohan, A. Haidari and A. Mukopadhyay |
| | Fluent, Inc., US |
| - | Optical and impedance detection of DNA hybridisation on barcoded micro particles in a microfluidic device |
| | D. Holmes, A. Whitton, G. Cavalli-Petraglia, G. Galitonov, S. Birtwell, S. Banu, N. Zheludev and H. Morgan |
| | University of Southampton, UK |
| - | Characterisation of thin film piezoelectric materials by differential interferometric techniques |
| | M.G. Cain, M. Steward and M. Downs |
| | National Physical Laboratory, UK |
| - | A Behavior of Protein Adsorption on Poly(Ethylene Glycol)-Modified Surfaces under Flow Conditions at Relatively Low Concentrations for Microfluidics Systems |
| | C.J. Chun, K. Lenghaus, L. Riedel, A. Bhalkikar and J.J. Hickman |
| | University of Central Florida, US |
| - | Integrated Microfluidic Device with an Electroplated Palladium Decoupler for Electrochemical Detection of the 8-hydroxydeoxyguanosine (8-OH-dG) DNA Adduct |
| | A.A. Dawoud , T. Kawaguchi and R. Jankowiak |
| | Iowa State University, US |
| - | Analytical Model for Magnetic Particle Transport in a Magnetically Biased Microfluidic System |
| | E.P. Furlani |
| | University at Buffalo, US |
| ISBN: | 0-9767985-7-3 |
| Pages: | 893 |
| Hardcopy: | $185.00 |
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