Exploring fet Concepts for Lab-on-a-Chip.- Monitoring of Cell Growth, Oxygen and ph in Microfermentors.- Observation of Response to Stimuli in Oscillating Cells Patterned by Microfabricated Structure.- On-Chip Agarose Microchamber (AMC) Array Cell-Cultivation System for Topographical Control of Neural Network.- Integrated Size Exclusion and Reversed-Phase Electrochromatography.- Dispersion Analysis of a Solid-Phase Microextraction Chip by Computational Fluid Dynamics.- Interfacing Microchip CE with Icpms for Element Speciation.- Electrodeless Dielectrophoretic Trapping and Separation of Cells.- SiO2 Nozzle Array-Based Patch-Clamp Microsystem.- A Programmable Cell Assay Platform for Kinetic Studies of a Single Cell.- An Integrated Microdialysis-Based System.- User-Assembly, Fully Integrated Micro Chemical Laboratory using Biochemical IC Chips for Wearable/Implantable Applications.- Microfluidic Reactor Array for Multistep Droplet Reactions.- Single Molecular Detection of DNA/Protein and Its Application to Biochips.- DNA Separation in Gradient of Confined Nanospace Generated by Nanoparticles in a Microchannel.- Self-Assembled Magnetic Colloids for DNA Separations in Microfluidic Devices.- A Microfabricated Device for Separating 200KILO-BASE-PAIR DNA Molecules in 15 Seconds.- Airborn Chemistry Levitated Protein Droplets as a Novel Analytical Tool for Nucleation Screening in Macromolecular Crystallisation.- On-Line Monitoring of Airborne Chemistry in Levitated Droplets: in-SITU Synthesis and Application of Sers Active Ag-Sols For Trace Analysis By Raman Spectrometry.- Chip-To-World Interfaces for High-Throughput Lab-On-A-Chip Devices.- The Mems Modeling System by Collaboration of Multi-Scale Simulators and Application to the Microreactor.- Fem Study of Coulter Counter Wggh Water-Based Adaptable Aperture.- Micromanipulating Magnetic Particles in Microfluidic Systems.- Optimal Design of Micromixer Using Nonhomogeneous Multilayer Laminar Flow.- Computational Simulations of Fluid Flow Dynamics, and Bead Packing in Solid Phase Extraction Microsystems.- The Low-Voltage Cascade EOF Pump: Comparing Theory with Published Data.- Universal Joule Heating Model in Electrophoretic Separation Microchips.- Mathematical Model of Interfacial Layer in Ultra-Fine Liquid Drop Based on Molecular Dynamics Simulation.- Development of Micromixer Based on Instability of Interface Between Two Immiscible Liquids.- Theoretical Study of AC Electroosmotic Flows in Non-Uniformly Charged Microchannels.- Numerical Simulation of Mixing in A Micro-Channel with Non-Uniform Zeta Potential Surface.- Injection of Sample Bands from Open Channels into Packed Separation Columns.- Microscale Measurements of Flow Bounded by Air-Water Interfaces.- Virtual Flow Channel: A Novel Micro-Fluidics System with Orthogonal, Dynamic Control Of Sample Flow Dimensions.- Microfabrication of 3-D Oblique Structures by Inclined UV Lithography.- A New Fabrication Technique of A DNA Electrophoresischip by Silicon Micromachining Technology.- Precision Patterning of PDMS Thin Films: A New Fabrication Method and Its Applications.- Fabrication of Microfluidic Channels with Symmetric Cross-Sections for Integrated NMR Analysis.- Precise and Feasible Fabrication Process of Microfluidic Devices on A Borosilicate Glass Chip.- Laminated Electrodes Chip for Pulse-Immunoassay.- Fabrication of On-Chip Sorter Devices with Sub-Micrometer Scale Channels and Self-Aligned Microelectrodes.- Powder Handling Device for Drug Formulations.- Thermal Micropump Using Surface Tension Imbalance in Microchannels.- Optimization of Electrokinetic Pumps for Chip-Based Chromatographic Separations.- Practical Valves and Pumps for Large-Scale Integration into Microfluidic Analysis Devices.- Electro Osmotic Flow Pump Based on The Corbino Disc Geometry.- A Temperature Controlled Micro Valve for Biomedical Applications Using A Temperature Sensitive Hydrogel.- Electroosmotically Driven Two-Liquid Viscous Pump for Nonconducting...

The Sixth International Conference on Miniaturized Chemical and Biochemical Analysis Systems, known as /JTAS2002, will be fully dedicated to the latest scientific and technological developments in the field of miniaturized devices and systems for realizing not only chemical and biochemical analysis but also synthesis. The first /JTAS meeting was held in Enschede in 1994 with approximately 160 participants, bringing together the scientists with background in analytical and biochemistry with those with Micro Electro Mechanical Systems (MEMS) in one workshop. We are grateful to Piet Bergveld and Albert van den Berg of MESA Research Institute of the University of Twente for their great efforts to arrange this exciting first meeting. The policy of the meeting was succeeded by late Prof. Dr. Michael Widmer in the second meeting, /JTAS'96 held in Basel with 275 participants. The first two meetings were held as informal workshops. From the third workshop, /JTAS'98 (420 participants) held in Banff, the workshop had become a worldwide conference. Participants continued to increase in /JTAS2000 (about 500 participants) held in Enschede and /JTAS2001 (about 700 participants) held in Monterey. The number of submitted papers also dramatically increased in this period from 130 in 1998, 230 in 2000 to nearly 400 in 2001. From 2001, /JTAS became an annual symposium. The steering committee meeting held in Monterey, confrrmed the policy of former /JTAS that quality rather than quantity would be the key-point and that the parallel-session format throughout the 3.

The Sixth International Conference on Miniaturized Chemical and Biochemical Analysis Systems, known as IlTAS2002, will be fully dedicated to the latest scientific and technological developments in the field of miniaturized devices and systems for realizing not only chemical and biochemical analysis but also synthesis. The first IlTAS meeting was held in Enschede in 1994 with approximately 160 participants, bringing together the scientists with background in analytical and biochemistry with those with Micro Electro Mechanical Systems (MEMS) in one workshop. We are grateful to Piet Bergveld and Albert van den Berg of MESA Research Institute of the University of Twente for their great efforts to arrange this exciting first meeting. The policy of the meeting was succeeded by late Prof. Dr. Michael Widmer in the second meeting, IlTAS'96 held in Basel with 275 participants. The first two meetings were held as informal workshops. From the third workshop, IlTAS'98 (420 participants) held in Banff, the workshop had become a worldwide conference. Participants continued to increase in IlTAS2000 (about 500 participants) held in Enschede and IlTAS2001 (about 700 participants) held in Monterey. The number of submitted papers also dramatically increased in this period from 130 in 1998, 230 in 2000 to nearly 400 in 2001. From 2001, IlTAS became an annual symposium. The steering committee meeting held in Monterey, confirmed the policy of former IlTAS that quality rather than quantity would be the key-point and that the parallel-session format throughout the 3.