Kooperativer Bibliotheksverbund

UID:

Format: 1 Online-Ressource (212 p.) , col., ill., strated inthroughout

ISBN: 1847558909 , 9781847558909

Series Statement: RSC Nanoscience & nanotechnology v. 6

Note: Accessible in style, Nanofluidics fills a gap in the literature for a book focusing on bioanalytical applications within this growing field, In his now celebrated lecture at the 1959 meeting of the American Physical Society, Richard Feynman pondered the potential of miniaturization in the physical sciences. His vision, based on known technology, examined the limits set by physical principles and proposed a variety of new nano-tools including the concept of "atom-by-atom" fabrication. In the intervening decades, many of these predictions have become reality. In particular, the development and application of nanofluidics is becoming a competitive and exciting field of research. These nanoscale analytical instruments employ micromachined features and are able to manipulate fluid samples with high precision and efficiency. In a fundamental sense, chip-based analytical systems have been shown to have many advantages over their conventional (larger) analogues. Despite the growth of this field, there are surprisingly few books dedicated to nanofluidics. This book will fill the gap in the literature for a text focusing on bioanalytical applications. Written at a level accessible to experts and non-experts alike, it has the potential to become a mainstream text book for advanced nanobiotechnology courses within academic institutions

Language: English

Subjects: Engineering , Physics

Keywords: Nanostrukturiertes Material ; Nanotechnologie ; Mikrofluidik ; Aufsatzsammlung

URL: Volltext

UID:

Format: Online-Ressource (212 p) , col., ill., strated inthroughout

Edition: RSC eBook Collection 1968-2009

ISBN: 1847558909 , 9781847558909

Series Statement: RSC Nanoscience & nanotechnology v. 6

Content: Accessible in style, Nanofluidics fills a gap in the literature for a book focusing on bioanalytical applications within this growing field, In his now celebrated lecture at the 1959 meeting of the American Physical Society, Richard Feynman pondered the potential of miniaturization in the physical sciences. His vision, based on known technology, examined the limits set by physical principles and proposed a variety of new nano-tools including the concept of "atom-by-atom" fabrication. In the intervening decades, many of these predictions have become reality. In particular, the development and application of nanofluidics is becoming a competitive and exciting field of research. These nanoscale analytical instruments employ micromachined features and are able to manipulate fluid samples with high precision and efficiency. In a fundamental sense, chip-based analytical systems have been shown to have many advantages over their conventional (larger) analogues. Despite the growth of this field, there are surprisingly few books dedicated to nanofluidics. This book will fill the gap in the literature for a text focusing on bioanalytical applications. Written at a level accessible to experts and non-experts alike, it has the potential to become a mainstream text book for advanced nanobiotechnology courses within academic institutions

Note: Ebook , Nanofluidics_publicity; full book resized , Chapter 1: Transport of Ions, DNA Polymers, and Microtubules in the Nanofluidic Regime-- Chapter 2: Biomolecule Separation, Concentration, and Detection using Nanofluidic Channels-- Chapter 3: Particle Transport in Micro and Nanostructured Arrays: Asymmetric Low Reynolds Number Flow-- Chapter 5: Fabrication of Silica Nanofluidic Tubing for Single Molecule Detection-- Chapter 6: Single Molecule Analysis Using Single Nanopores-- Chapter 7: Nanopore-Based Optofluidic Devices for Single Molecule Sensing-- Chapter 8: Ion-Current Rectification in Nanofluidic Devices-- Chapter 9: Nanopillars and Nanoballs for DNA Analysis--.

Additional Edition: Erscheint auch als Druck-Ausgabe Nanofluidics : Nanoscience and Nanotechnology

Language: English

Subjects: Engineering , Physics

Keywords: Electronic books

URL: Volltext  (Deutschlandweit zugänglich)

UID:

Format: XXXIX, 382 p. , online resource.

Edition: 1st ed. 2002.

ISBN: 9789401005043

Content: 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.

Note: 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 Liquids -- Bi-Directional Valve-Less Micropump Using Piezoelectric Micro-Array Actuators -- Gravity-Driven Micropump with A Steady Flow Rate -- A Micro Pump, Compatible with Multiple Manufacturing Methods, for Fluidhandling in Disposable Microsystems -- Microfabrication Process for High-Density Micro Pipette Array and Matching Multi-Well Plate with Mixers -- Microfabricated Phase Change Latched Valve for Integrated Devices -- Thermal-Actuated Paraffin Microvalves -- Injection Modes for Evaporation Driven Continuous Liquid Flow -- DNA Amplification and Hybridization Assays in Integrated Plastic Monolithic Devices -- Microfluidic Device for Nucleic Acid Fragmentation by Shear Force -- Combined Nucleic Acid Extraction and Enrichment in Bead-Packed Plastic Beds -- Measuring Lithium in Whole Blood Using Capillary Electrophoresis -- An Ingestible Electronic Pill for Real Time Analytical Measurements of The Gastro-Intestinal Tract -- Detection of Multiple Real-Time Nasba in Nanoliter Volume -- Disposable Biochip Cartridge for Clinical Diagnostics Toward Point-of-Care Systems -- Microchip-Based Enzyme-Linked Immunosorbent Assay (Elisa) System -- Infrared-Mediated Thermocycling for DNA Amplification and Electrophoretic Separation on an Integrated Microchip Device -- Integrated Microdevice for DNA Extraction from A Single Hair -- Monolithic Sol-Gel Microchip Device for Efficient Isolation of Nucleic Acid from Clinical Samples -- Miniaturization of A Hematology Analyzer for Monitoring Oncology Outpatients -- Fabrications and Applications of Micro Hemocytometer for Early Detection of Cancer -- Enabling Technologies for A Personal Flow Cytometer, Part II: Integrated Analysis Cartridges -- High Throughput Stress Marker Assay Using Polymer Microchip Electrophoresis with Laser Induced Fluorescence Detection -- DNA Size Separation Employing Micro-Fabricated Monolithic Nano-Structure -- Integrated Microsystem of Isothermal Amplification of DNA and Electrophoresis on A Microfabricated Plastic Chip for Detection of Specific Gene and Analysis of Genetic Materials -- SNP Analysis by Allele-Specific Extension of Fluorescently Labeled Nucleotides in A Microfluidic Flow-Through Device -- Device for Label-Free Bio-Ligand Interaction Studies Based on Time Resolved Fourier Transform Infrared Spectrometry -- A Disposable Passive Microfluidic System Integrated with Micromixer and DNA Purification Chip for DNA Sample Preparation -- DNA Hybridization Feature on "Bead-Array" - DNA Probes on Beads Arrayed in A Capillary -- Development of A Label-Free Protein Array Chip -- Detection of DNA Point Mutations in A Polymer Microfluidic Network Using A Temporal Thermal Gradient -- Micro Multiple Immunoassay Using Silicon-Based Microfabricated Protein Biochep -- An Active Mixer for Microscale Purification and Sequencing Reaction Clean-Up -- In Vitro Protein Synthesis on A High-Integrated Microchamber Chip with Low DNA Molecules -- Parallel Sequencing of Real-World Samples Using A Microfabricated Hybird Device -- Micromachined Device for Manipulation of Charged Bio-Molecule -- High Precision Micropreparative Separation System Based on Plastc Microfluidic Module - Capillary Coupling -- High Fidelity and Low Cost Detection of Multi-Color Fluorescence from Biological Cells in A Micro Integrated Flow Cytometer (MIFC) with Disposable Observation Cell -- Integrated Amorphous Silicon Photodiode Detector for Microfabricated Capillary Electrophoresis Devices -- Integration of Polymer Waveguides for Optical Detection in Biochemical Microsystems -- Real-Time SPR Imaging of Biochemical Reactions in Microfluidic Systems -- A Miniaturized Glow Discharge Optical Emission Detector for Aqueous Analytes -- Fiber-Optic Microdevices for Surface Plasmon Resonance Applied to Microfluidic Devices -- Optical Recovery of Particles on A Chip Toward Cell Sorting and Bead-Bed Detection -- Integrated On-Chip Absorption and Luminescence Spectroscopy with , Induced Fluorescence Detection on A Miniaturised Flow Cytometry Device -- Comparison of Different Strategies of Chemiluminescence Detection for Microchip System Fabricated in Poly(Dimethylsiloxane) -- Fiber-Loop Ring-Down Spectroscopy for Enhanced Detection of Absorption with Limited Path Length -- Multicomponent Analysis by Submillimeter-Effective-Length Capillary Electrophoresis Using Patterned Fluorescence Correlation Spectroscopy -- Supramolecular and Macromolecular Approaches to Functional Nano Materials -- Label-Free Dielectric Detection of DNA Hybridization with Nanogap Junctions -- Detection of Single Nucleotide Incorporation Using Pyrosequencing in A Microfluedic Device -- Fast Screening of Single-Nucleotide Polymorphisms Using Chip-Based Temperature Gradient Capillary Electrophoresis -- Molecular Transport Through Nanometer Confined Channels -- DNA Trap-and-Release Element Emploing Electric and Hydro Drag Force Fields for On-Chip Pre-Treatment -- Microchip Electrophoresis Integrated with Nanofluidic Sample Handling -- Magnetophoretic-Dielectrophoretic Field-Flow Fractionation -- Free-Flow Magnetophoresis - Separation of Magnetic Microparticles and Agglomerates on Chip -- Hybrid Type On-Chip Magnetic Particle Separators for Accurate Positioning Magnetic Beads -- Photopolymerized and Photografted Porous Polymer Monoliths for Fabrication of Microfluidic Analytical Systems -- Engineered Dielectric Microspheres for Use in Microsystems -- Microvalve Architectures for Hig.

In: Springer Nature eBook

Additional Edition: Printed edition: ISBN 9781402010101

Additional Edition: Printed edition: ISBN 9789401039536

Additional Edition: Printed edition: ISBN 9789401005050

Language: English

DOI: 10.1007/978-94-010-0504-3

URL: https://doi.org/10.1007/978-94-010-0504-3

UID:

Format: XXXIX, 629 p. , online resource.

Edition: 1st ed. 2002.

ISBN: 9789401002950

Content: 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.

Note: Day 1 -- Day 1 Posters -- Day 2 -- Day 2 Posters.

In: Springer Nature eBook

Additional Edition: Printed edition: ISBN 9789401039529

Additional Edition: Printed edition: ISBN 9789401002967

Additional Edition: Printed edition: ISBN 9781402010095

Language: English

DOI: 10.1007/978-94-010-0295-0

URL: https://doi.org/10.1007/978-94-010-0295-0

UID:

Format: Online-Ressource (XXXIX, 629 p) , online resource

Edition: Springer eBook Collection. Chemistry and Materials Science

ISBN: 9789401002950

Content: Day 1 -- Day 1 Posters -- Day 2 -- Day 2 Posters.

Content: 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.

Additional Edition: ISBN 9789401039529

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9789401039529

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9789401002967

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9781402010095

Language: English

DOI: 10.1007/978-94-010-0295-0

URL: Volltext  (lizenzpflichtig)

URL: lizenzpflichtig

UID:

Format: Online-Ressource (XXXIX, 379 p) , online resource

Edition: Springer eBook Collection. Chemistry and Materials Science

ISBN: 9789401005043

Content: 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 Liquids -- Bi-Directional Valve-Less Micropump Using Piezoelectric Micro-Array Actuators -- Gravity-Driven Micropump with A Steady Flow Rate -- A Micro Pump, Compatible with Multiple Manufacturing Methods, for Fluidhandling in Disposable Microsystems -- Microfabrication Process for High-Density Micro Pipette Array and Matching Multi-Well Plate with Mixers -- Microfabricated Phase Change Latched Valve for Integrated Devices -- Thermal-Actuated Paraffin Microvalves -- Injection Modes for Evaporation Driven Continuous Liquid Flow -- DNA Amplification and Hybridization Assays in Integrated Plastic Monolithic Devices -- Microfluidic Device for Nucleic Acid Fragmentation by Shear Force -- Combined Nucleic Acid Extraction and Enrichment in Bead-Packed Plastic Beds -- Measuring Lithium in Whole Blood Using Capillary Electrophoresis -- An Ingestible Electronic Pill for Real Time Analytical Measurements of The Gastro-Intestinal Tract -- Detection of Multiple Real-Time Nasba in Nanoliter Volume -- Disposable Biochip Cartridge for Clinical Diagnostics Toward Point-of-Care Systems -- Microchip-Based Enzyme-Linked Immunosorbent Assay (Elisa) System -- Infrared-Mediated Thermocycling for DNA Amplification and Electrophoretic Separation on an Integrated Microchip Device -- Integrated Microdevice for DNA Extraction from A Single Hair -- Monolithic Sol-Gel Microchip Device for Efficient Isolation of Nucleic Acid from Clinical Samples -- Miniaturization of A Hematology Analyzer for Monitoring Oncology Outpatients -- Fabrications and Applications of Micro Hemocytometer for Early Detection of Cancer -- Enabling Technologies for A Personal Flow Cytometer, Part II: Integrated Analysis Cartridges -- High Throughput Stress Marker Assay Using Polymer Microchip Electrophoresis with Laser Induced Fluorescence Detection -- DNA Size Separation Employing Micro-Fabricated Monolithic Nano-Structure -- Integrated Microsystem of Isothermal Amplification of DNA and Electrophoresis on A Microfabricated Plastic Chip for Detection of Specific Gene and Analysis of Genetic Materials -- SNP Analysis by Allele-Specific Extension of Fluorescently Labeled Nucleotides in A Microfluidic Flow-Through Device -- Device for Label-Free Bio-Ligand Interaction Studies Based on Time Resolved Fourier Transform Infrared Spectrometry -- A Disposable Passive Microfluidic System Integrated with Micromixer and DNA Purification Chip for DNA Sample Preparation -- DNA Hybridization Feature on “Bead-Array” - DNA Probes on Beads Arrayed in A Capillary -- Development of A Label-Free Protein Array Chip -- Detection of DNA Point Mutations in A Polymer Microfluidic Network Using A Temporal Thermal Gradient -- Micro Multiple Immunoassay Using Silicon-Based Microfabricated Protein Biochep -- An Active Mixer for Microscale Purification and Sequencing Reaction Clean-Up -- In Vitro Protein Synthesis on A High-Integrated Microchamber Chip with Low DNA Molecules -- Parallel Sequencing of Real-World Samples Using A Microfabricated Hybird Device -- Micromachined Device for Manipulation of Charged Bio-Molecule -- High Precision Micropreparative Separation System Based on Plastc Microfluidic Module - Capillary Coupling -- High Fidelity and Low Cost Detection of Multi-Color Fluorescence from Biological Cells in A Micro Integrated Flow Cytometer (MIFC) with Disposable Observation Cell -- Integrated Amorphous Silicon Photodiode Detector for Microfabricated Capillary Electrophoresis Devices -- Integration of Polymer Waveguides for Optical Detection in Biochemical Microsystems -- Real-Time SPR Imaging of Biochemical Reactions in Microfluidic Systems -- A Miniaturized Glow Discharge Optical Emission Detector for Aqueous Analytes -- Fiber-Optic Microdevices for Surface Plasmon Resonance Applied to Microfluidic Devices -- Optical Recovery of Particles on A Chip Toward Cell Sorting and Bead-Bed Detection -- Integrated On-Chip Absorption and Luminescence Spectroscopy with Polydimethylsiloxane (PDMS) Microfluidic Flow Channels Using Broadband Illumination -- Development of Liquid/Liquid Optical Waveguide Using A Two Phase Sheath Flow and Its Application to Fluorescent Determination of Rhodamine B -- Integration of Photo-Thermal Spectroscopy Detection System on A Chip -- Integrated Microfluidic Optical Systems (iMOS) with LED -- Application of Organic Light Emitting Diode as an On-Chip Light Source for Fluorescence Spectroscopy -- Micro-Optical Laser Induced Fluorescence Detection on A Miniaturised Flow Cytometry Device -- Comparison of Different Strategies of Chemiluminescence Detection for Microchip System Fabricated in Poly(Dimethylsiloxane) -- Fiber-Loop Ring-Down Spectroscopy for Enhanced Detection of Absorption with Limited Path Length -- Multicomponent Analysis by Submillimeter-Effective-Length Capillary Electrophoresis Using Patterned Fluorescence Correlation Spectroscopy -- Supramolecular and Macromolecular Approaches to Functional Nano Material...

Content: 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.

Additional Edition: ISBN 9789401039536

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9781402010101

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9789401039536

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 9789401005050

Language: English

DOI: 10.1007/978-94-010-0504-3

URL: Volltext  (lizenzpflichtig)

URL: lizenzpflichtig