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Microfluidics : control, manipulation, and behavioral applications / Stefano Panzarella and Walter Maroni, editors.

Contributor(s): Material type: TextTextSeries: Nanotechnology science and technology seriesPublisher: [Hauppauge] New York : Nova Publishers, [2013]Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781624173462
  • 1624173462
Subject(s): Genre/Form: Additional physical formats: Print version:: MicrofluidicsDDC classification:
  • 532/.05 23
LOC classification:
  • TJ853.4.M53
Online resources:
Contents:
MICROFLUIDICS ; MICROFLUIDICS ; CONTENTS ; PREFACE ; DIELECTROPHORESIS BASED DROPLET MICROFLUIDIC DEVICES FOR ON-CHIP BIOASSAYS; ABSTRACT ; 1. INTRODUCTION ; 1.1. Close Channel Microfluidic Device or, Analog Microfluidic Device; 1.2. Surface Microfluidic Device or, Digital Microfluidic Device ; 2. THEORY ; 2.1. Liquid Dielectrophoresis- The Phenomena and Its Characteristic Features ; L-DEP- Theoretical background ; Lumped capacitance model for homogenous L-DEP actuation ; Effective capacitance model for uniform, non-homogenous L-DEP actuation.
2.2. L-DEP -- Jet Actuation: Characteristic Features Threshold actuation voltage ; Threshold actuation frequency ; Droplet formation -- key requirements/constraints ; Break-Up of Non-Uniform, Tapered Liquid Jets ; 2.3. Droplet-Dielectrophoresis (D-DEP): Underlying Concept and Actuation Methodology ; 2.4. Manipulating Micro-Particles Leveraging L-DEP ; 3. PRACTICAL L-DEP DEVICES- FABRICATION METHODS ; 3.1. Fundamentals of Device Fabrication ; 3.2. Approaches for Reliable and Repeatable Device Operation ; 3.3. Process for L-DEP and D-DEP -- Multilayer and Device Integration.
4. BIO-SAMPLE MANIPULATION AND SENSING APPLICATIONS Droplet based bio-assays ; Vesicular bio-applications ; Bead-based bio-assays ; CONCLUSION ; FUTURE WORK ; ACKNOWLEDGMENTS ; REFERENCES; MICROFLUIDIC BIOSENSOR SYSTEMS FOR CELL BIOLOGY AND DRUG DISCOVERY ; ABSTRACT ; INTRODUCTION ; LABEL-FREE BIOSENSORS FOR CELL ANALYSIS ; MICROFLUIDIC BIOSENSOR SYSTEMS ; MICROFLUIDIC CELL CULTURE ; MICROFLUIDIC BIOSENSORS FOR ON-CHIP ELECTROPHYSIOLOGY ANALYSIS ; MICROFLUIDIC BIOSENSORS FOR SENSING CELL MECHANICS.
MICROFLUIDIC BIOSENSORS FOR PROBING CELLULAR RESPONSES AND DRUG ACTIONS UNDER CONTROLLED CHEMICAL ENVIRONMENTS MICROFLUIDIC BIOSENSORS FOR SINGLE CELL ANALYSIS ; CONCLUSION ; REFERENCES ; CONTROLLABLE MICROFLUIDIC GENERATION OF MONODISPERSE MULTIPLE EMULSION DROPLETS ; ABSTRACT ; 1. INTRODUCTION ; 2. CONTROLLABLE PRODUCTION OF MONODISPERSEMULTIPLE EMULSIONS ; 2.1. Controllable Monodisperse Double Emulsions; 2.1.1. Fabrication of the Capillary Microfluidic Device ; 2.1.2. Generation of Monodisperse Double Emulsions ; 2.1.3. Prediction of the Number of Inner Droplets.
2.2. Controllable Monodisperse Triple Emulsions 3. CONTROLLABLE PRODUCTION OF MONODISPERSEMULTICOMPONENT MULTIPLE EMULSIONS ; 3.1. Controllable Production of Monodisperse Quadruple-Component Double Emulsions ; 3.1.1. Design and Fabrication of Microfluidic Device for Multicomponent Multiple Emulsions ; 3.1.2. Controllable Generation of Monodisperse Quadruple-Component Double Emulsions ; 3.1.3. Independent Control of Connector and Liquid Extractor Over the Size of theOuter Droplets in Quadruple-Component Double Emu.
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Includes bibliographical references and index.

Description based on print version record.

English.

MICROFLUIDICS ; MICROFLUIDICS ; CONTENTS ; PREFACE ; DIELECTROPHORESIS BASED DROPLET MICROFLUIDIC DEVICES FOR ON-CHIP BIOASSAYS; ABSTRACT ; 1. INTRODUCTION ; 1.1. Close Channel Microfluidic Device or, Analog Microfluidic Device; 1.2. Surface Microfluidic Device or, Digital Microfluidic Device ; 2. THEORY ; 2.1. Liquid Dielectrophoresis- The Phenomena and Its Characteristic Features ; L-DEP- Theoretical background ; Lumped capacitance model for homogenous L-DEP actuation ; Effective capacitance model for uniform, non-homogenous L-DEP actuation.

2.2. L-DEP -- Jet Actuation: Characteristic Features Threshold actuation voltage ; Threshold actuation frequency ; Droplet formation -- key requirements/constraints ; Break-Up of Non-Uniform, Tapered Liquid Jets ; 2.3. Droplet-Dielectrophoresis (D-DEP): Underlying Concept and Actuation Methodology ; 2.4. Manipulating Micro-Particles Leveraging L-DEP ; 3. PRACTICAL L-DEP DEVICES- FABRICATION METHODS ; 3.1. Fundamentals of Device Fabrication ; 3.2. Approaches for Reliable and Repeatable Device Operation ; 3.3. Process for L-DEP and D-DEP -- Multilayer and Device Integration.

4. BIO-SAMPLE MANIPULATION AND SENSING APPLICATIONS Droplet based bio-assays ; Vesicular bio-applications ; Bead-based bio-assays ; CONCLUSION ; FUTURE WORK ; ACKNOWLEDGMENTS ; REFERENCES; MICROFLUIDIC BIOSENSOR SYSTEMS FOR CELL BIOLOGY AND DRUG DISCOVERY ; ABSTRACT ; INTRODUCTION ; LABEL-FREE BIOSENSORS FOR CELL ANALYSIS ; MICROFLUIDIC BIOSENSOR SYSTEMS ; MICROFLUIDIC CELL CULTURE ; MICROFLUIDIC BIOSENSORS FOR ON-CHIP ELECTROPHYSIOLOGY ANALYSIS ; MICROFLUIDIC BIOSENSORS FOR SENSING CELL MECHANICS.

MICROFLUIDIC BIOSENSORS FOR PROBING CELLULAR RESPONSES AND DRUG ACTIONS UNDER CONTROLLED CHEMICAL ENVIRONMENTS MICROFLUIDIC BIOSENSORS FOR SINGLE CELL ANALYSIS ; CONCLUSION ; REFERENCES ; CONTROLLABLE MICROFLUIDIC GENERATION OF MONODISPERSE MULTIPLE EMULSION DROPLETS ; ABSTRACT ; 1. INTRODUCTION ; 2. CONTROLLABLE PRODUCTION OF MONODISPERSEMULTIPLE EMULSIONS ; 2.1. Controllable Monodisperse Double Emulsions; 2.1.1. Fabrication of the Capillary Microfluidic Device ; 2.1.2. Generation of Monodisperse Double Emulsions ; 2.1.3. Prediction of the Number of Inner Droplets.

2.2. Controllable Monodisperse Triple Emulsions 3. CONTROLLABLE PRODUCTION OF MONODISPERSEMULTICOMPONENT MULTIPLE EMULSIONS ; 3.1. Controllable Production of Monodisperse Quadruple-Component Double Emulsions ; 3.1.1. Design and Fabrication of Microfluidic Device for Multicomponent Multiple Emulsions ; 3.1.2. Controllable Generation of Monodisperse Quadruple-Component Double Emulsions ; 3.1.3. Independent Control of Connector and Liquid Extractor Over the Size of theOuter Droplets in Quadruple-Component Double Emu.

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