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Microfluidics : theory and applications / Ivan A. Kuznetsov, editor.

Contributor(s): Material type: TextTextSeries: Physics research and technologyPublisher: New York : Nova Science Publishers, Inc., [2010]Description: 1 online resource : illustrationsContent type:
  • still image
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781621000341
  • 1621000346
Subject(s): Genre/Form: Additional physical formats: Print version:: MicrofluidicsDDC classification:
  • 629.8/042 22
LOC classification:
  • TJ853.4.M53
Online resources:
Contents:
MICROFLUIDICS: THEORY AND APPLICATIONS; MICROFLUIDICS: THEORY AND APPLICATIONS ; CONTENTS ; PREFACE ; MICROBIOCHIPS MONOLITHICALLY INTEGRATED WITH MICROFLUIDICS, MICROMECHANICS, PHOTONICS, AND ELECTRONICS BY 3D FEMTOSECOND LASER DIRECT WRITING ; ABSTRACT; 1. INTRODUCTION ; 2. CONCEPT OF 3D DIRECT WRITING INSIDE TRANSPARENT MATERIALS BY FEMTOSECOND LASER ; 3. FEMTOSECOND LASER FABRICATION OF 3D FUNCTIONAL COMPONENTS ; 3.1. Microfluidic Components and Controlling the Aspect Ratio of Microchannels; 3.2. Micromechanics ; 3.3. Microoptics ; 3.4. Microelectronics.
4. MONOLITHIC INTEGRATION OF MICROFLUIDICS, PHOTONICS, AND ELECTRONICS 4.1. Microfluidic Dye Laser ; 4.2. Optofluidic Integration ; 4.3. Electro-Optic Integration; 5. NANOAQUARIUM FOR DYNAMIC OBSERVATION OF MICROORGANISMS ; 5.1. Concept of Nanoaquarium ; 5.2. Nanoaquarium for Observing the Motion of Euglena gracilis ; 6. CONCLUSIONS AND OUTLOOK ; REFERENCES ; ELECTROKINETIC FLOWS OF NON-NEWTONIAN FLUIDS IN MICROFLUIDIC CHANNELS; ABSTRACT ; 1. ELECTROOSMOTIC FLOW OF POWER-LAW FLUIDS IN A SLIT MICROCHANNEL ; 1.1. Introduction ; 1.2. Power-Law Fluids and Governing Equations.
1.3. Exact Solutions of Electroosmosis of Power-Law Fluids in a Slit Microchannel 1.4. Approximate Analytical Solutions of Electroosmosis of Power-Law Fluids in a Slit Microchannel ; 1.5. Results and Discussion; 1.5.1. Comparison of the Exact and Approximate Solutions with the Numerical Simulations ; 1.5.2. Characteristics of Electroosmotic Flow of Power-Law Fluids ; 1.6. Summary for Electroosmotic Flow of Power-Law Fluids ; 2. PRESSURE DRIVEN FLOW OF POWER-LAW FLUIDS IN A MICROCHANNEL WITH ELECTROKINETIC EFFECTS; 2.1. Introduction.
2.2. Pressure Driven Flow Field of Power-Law Fluids in a Slit Microchannel with Electrokinetic Effects Approximate Analytical Solution ; 2.3. Streaming Potential ; 2.4. Apparent Viscosity and Electroviscous Effects ; 2.5. Friction Coefficient ; 2.6. Results and Discussion ; 2.6.1. Velocity Distribution; 2.6.2. Non-Dimensional Induced Streaming Potential ; 2.6.3. Volumetric Flow Rate ; 2.6.4. Apparent Viscosity (Electroviscous Effects) ; 2.6.5. Friction Coefficient ; 2.7. Summary for Pressure Driven Flow of Power-Law Fluids with Electrokinetic Effects ; REFERENCES ; APPENDIX.
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Includes bibliographical references and index.

Description based on print version record; title from PDF title page, viewed (07/09/2020).

English.

MICROFLUIDICS: THEORY AND APPLICATIONS; MICROFLUIDICS: THEORY AND APPLICATIONS ; CONTENTS ; PREFACE ; MICROBIOCHIPS MONOLITHICALLY INTEGRATED WITH MICROFLUIDICS, MICROMECHANICS, PHOTONICS, AND ELECTRONICS BY 3D FEMTOSECOND LASER DIRECT WRITING ; ABSTRACT; 1. INTRODUCTION ; 2. CONCEPT OF 3D DIRECT WRITING INSIDE TRANSPARENT MATERIALS BY FEMTOSECOND LASER ; 3. FEMTOSECOND LASER FABRICATION OF 3D FUNCTIONAL COMPONENTS ; 3.1. Microfluidic Components and Controlling the Aspect Ratio of Microchannels; 3.2. Micromechanics ; 3.3. Microoptics ; 3.4. Microelectronics.

4. MONOLITHIC INTEGRATION OF MICROFLUIDICS, PHOTONICS, AND ELECTRONICS 4.1. Microfluidic Dye Laser ; 4.2. Optofluidic Integration ; 4.3. Electro-Optic Integration; 5. NANOAQUARIUM FOR DYNAMIC OBSERVATION OF MICROORGANISMS ; 5.1. Concept of Nanoaquarium ; 5.2. Nanoaquarium for Observing the Motion of Euglena gracilis ; 6. CONCLUSIONS AND OUTLOOK ; REFERENCES ; ELECTROKINETIC FLOWS OF NON-NEWTONIAN FLUIDS IN MICROFLUIDIC CHANNELS; ABSTRACT ; 1. ELECTROOSMOTIC FLOW OF POWER-LAW FLUIDS IN A SLIT MICROCHANNEL ; 1.1. Introduction ; 1.2. Power-Law Fluids and Governing Equations.

1.3. Exact Solutions of Electroosmosis of Power-Law Fluids in a Slit Microchannel 1.4. Approximate Analytical Solutions of Electroosmosis of Power-Law Fluids in a Slit Microchannel ; 1.5. Results and Discussion; 1.5.1. Comparison of the Exact and Approximate Solutions with the Numerical Simulations ; 1.5.2. Characteristics of Electroosmotic Flow of Power-Law Fluids ; 1.6. Summary for Electroosmotic Flow of Power-Law Fluids ; 2. PRESSURE DRIVEN FLOW OF POWER-LAW FLUIDS IN A MICROCHANNEL WITH ELECTROKINETIC EFFECTS; 2.1. Introduction.

2.2. Pressure Driven Flow Field of Power-Law Fluids in a Slit Microchannel with Electrokinetic Effects Approximate Analytical Solution ; 2.3. Streaming Potential ; 2.4. Apparent Viscosity and Electroviscous Effects ; 2.5. Friction Coefficient ; 2.6. Results and Discussion ; 2.6.1. Velocity Distribution; 2.6.2. Non-Dimensional Induced Streaming Potential ; 2.6.3. Volumetric Flow Rate ; 2.6.4. Apparent Viscosity (Electroviscous Effects) ; 2.6.5. Friction Coefficient ; 2.7. Summary for Pressure Driven Flow of Power-Law Fluids with Electrokinetic Effects ; REFERENCES ; APPENDIX.

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