 | Nanotech 2001 Vol. 1
Technical Proceedings of the 2001 International Conference on Modeling and Simulation of Microsystems
Chapter 6: Micro and Bio Fluidics |
| - | A Combined DSMC/Meshless Technique for Multiscale Analysis of Microfluidic Filters |
| | O. Aktas and N.R. Aluru |
| | University of Illinois at Urbana-Champaign, U.S.A. |
| - | Reconfigurable Microfluidic System Architecture Based on Two-Dimensional Electrowetting Arrays |
| | J. Ding, K. Chakrabarty and R.B. Fair |
| | Duke University, U.S.A. |
| - | Surface Tension Induced Instability of Viscous Liquid Jets |
| | E.P. Furlani, C.N. Delametter, J.M. Chwalek and D. Trauernicht |
| | Eastman Kodak Company, U.S.A. |
| - | Electroosmotic Microfluidic Flows with Random Zeta Potential |
| | J.P. Gleeson |
| | University College Cork, Ireland |
| - | Efficient Numerical Methods for the Simulation of Flow Reactors |
| | R. Becker, M. Braack, V. Heuveline and R. Rannacher |
| | University of Heidelberg, Germany |
| - | Mixed-Dimensionality, Multi-Physics Simulation Tools for Design Analysis of Microfluidic Devices and Integrated Systems |
| | A.J. Przekwas and V.B. Makhijani |
| | CFD Research Corporation, U.S.A. |
| - | Numerical Modeling of Magnetic Field Flow Fractionation in Microchannels: A Two-fold Approach Using Particle Trajectories and Concentration |
| | J. Berthier, P. Pham and P. Massé |
| | LETI, France |
| - | Analysis of Sample Transport in Capillary Electrophoresis Microchip Using Full-Scale Numerical Analysis |
| | S. Krishnamoorthy, J.J. Feng and V.B. Makhijani |
| | CFD Research Corporation, U.S.A. |
| - | Inverted Method for Simulation of Electrokinetic Transport in Microchannel Devices |
| | R.H. Nilson and S.K. Griffiths |
| | Sandia National Laboratories, U.S.A. |
| - | Electrodynamic Transport, Electroporation and Lysis of Cells in Pharmacological and Bioanalytical Microsystems |
| | A.J. Przekwas, Z.J. Chen and M. Athavale |
| | CFD Research Corporation, U.S.A. |
| - | Modeling of Blood Flow in Simple Microchannels |
| | D. Trebotich, W. Chang and D. Liepmann |
| | University of California Berkeley, U.S.A. |
| - | Simulation of Droplet Formation in Micromixers |
| | S. Hardt, F. Schönfeld, F. Weise, C. Hofmann and W. Ehrfeld |
| | Institut für Mikrotechnik, Germany |
| - | Application of the Direct Simulation Monte Carlo Method to Modeling of Microfluidics |
| | F. Sharipov |
| | Universidade Federal do Paraná, Brazil |
| - | A Mathematical Model of a Biosensor |
| | N.D. Botkin, M. Schlensog, M. Tewes and V.L. Turova |
| | Center of Advanced European Studies and Research, Germany |
| - | Computational Design Analysis for In-Plane Microfluidic Valves |
| | C.K. Dickey, V.B. Makhijani, A. Deshmukh and D. Liepmann |
| | CFD Research Corporation, U.S.A. |
| - | A Fluid Dynamics Model for a Plasma Ion Acceleration System |
| | F.S. Domingo and H.J. Ramos |
| | University of the Philippines, Philippines |
| - | Three-Dimensional Single Step Flow Sheathing in Micro Cell Sorters |
| | G. Goranovic, I. Perch-Nielsen, U.D. Larsen, A. Wolff, J. Kutter and P. Telleman |
| | Bio/Chemical MicroSystems, Denmark |
| - | A Stochastic Projection Method for Microchannel Flow |
| | O.P. Le Maitre, O.M. Knio, R.G. Ghanem and H.N. Najm |
| | John's Hopkins University, U.S.A. |
| - | Use of Numerical Methods for Modeling and Simulating Capillary Driven Flows in Microchannels |
| | A. Quinte, S. Halstenberg and H. Eggert |
| | Forschungszentrum Karlsruhe, Germany |
| - | Insects Separate Diffusing Particles in Parallel |
| | J.V. Lawry |
| | California Academy of Sciences, U.S.A. |
| - | Microflows with Moving Boundaries: Experiment and Simulation |
| | C. Maier and E.P. Hofer |
| | University of Ulm, Germany |
| - | Optimization of a MEMS Based Micro Capillary Pumped Loop for Chip-Level Temperature Control |
| | D. Trebotich, J. Kirshberg, J. Teng and D. Liepmann |
| | University of California, U.S.A. |
| - | Simulation of Flow in Structurally Programmable Microfluidic Channels |
| | V.B. Makhijani, A.J. Reich, A. Puntambekar, C. Hong and C. Ahn |
| | CFD Research Corporation, U.S.A. |
| - | Atomistic Simulation of Electro-Osmosis in a Nanometer-Scale Channel |
| | J.B. Freund |
| | University of California at Los Angeles, U.S.A. |
| ISBN: | 0-9708275-0-4 |
| Pages: | 638 |
| Hardcopy: | $100.00 |
| Special: | 3 CD Set — 15% off with Free Shipping |
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