| Description |
1 online resource (1178 pages : 142 illustrations). |
| Series |
Devices, circuits, and systems
|
| Note |
<P>Preface</P><P>Acknowledgment</P><P>Author</P><P>Introduction</P><P>Section I: Biological Chemistry</P><B><P>Elements of Organic Chemistry</P></B><P>Introduction</P><P>Thermodynamic and Chemical Properties of Solutions</P><I><P>Thermodynamic State Functions</P><P>Chemical Properties of Solutions</P><P>Chemical Equilibrium in Reactions among Solutes</P><P>Reaction Kinetics</P><P>Catalysis</P><P>Solvability in a Polar Solvent</P></I><P>Organic Chemistry Building Blocks</P><I><P>Hydrocarbons: Types and Structure</P><P>Functional Groups</P></I><P>Polymers</P><I><P>Polymerization and Polymer Types</P><P>Polymeric Materials Structure</P><P>Polymers for Microfabrication Main Properties</P></I><P>Microscopic Models of Macromolecule Solutions</P><I><P>Implicit Solvent Models for Solution in Equilibrium</P><P>Chemical Reactions between Macromolecules: The Perfect Gas of Macromolecules</P><P>Collisions and Reaction Kinetics</P></I><P>References</P><B><P>Elements of Biochemistry</P></B><P>Introduction</P><P>Structural Organization of Biochemical Macromolecules</P><I><P>General Properties of Macromolecules</P><P>Organization and Structure of the Cell</P><P>Viruses</P><P>Classes of Biological Macromolecules</P></I><P>Protein Structure and Chemistry</P><I><P>Protein Chemical Structure</P><P>Protein Stereography: Secondary Structure</P><P>Protein Stereography: Tertiary Structure</P><P>Role of Proteins in Biochemistry</P></I><P>Immunoglobulin</P><I><P>Immunoglobulin G Structure</P><P>Classification of Human Immunoglobulin</P></I><P>Enzymatic Catalysis</P><I><P>The Basic Principle of Enzymes Working</P><P>Kinetics of Enzyme-Catalyzed Reactions</P><P>Dependency of Enzyme Kinetics on Enzyme Type and Environment</P><P>Enzyme Inhibition</P><P>Enzymatic Catalysis Thermodynamics</P></I><P>Nucleic Acids</P><I><P>Deoxyribonucleic Acid</P><P>Ribonucleic Acid Structure</P><P>RNA Types and Roles</P></I><P>Lipids</P><I><P>Free Fatty Acids</P><P>Triacylglycerols</P><P>Membrane Lipids</P><P>Steroids</P></I><P>Carbohydrates</P><I><P>Monosaccharides</P><P>Oligosaccharides</P><P>Glycoproteins</P></I><P>References</P><B><P>Biochemical Assays and Sequencing Techniques</P></B><P>Introduction</P><P>Assay Procedure and Preparation</P><I><P>Cells Lysis Techniques</P><P>Nucleic Acid Extraction from Cell Lysates</P><P>Protein Extraction from Cell Lysates</P><P>Protein Hydrolysis</P></I><P>DNA Amplification by Polymerase Chain Reaction</P><I><P>PCR Efficiency</P><P>PCR Alternative Procedures</P></I><P>Enzymatic Assays</P><I><P>Detection Methods in Enzymatic Assays</P></I><P>Chromatography</P><I><P>Liquid Column Chromatography</P><P>High-Performance Liquid Chromatography</P><P>Alternatives to Adsorption Liquid-Phase Chromatography</P></I><P>Electrophoresis</P><I><P>Electrophoresis Gel Types</P><P>Protein Electrophoresis</P><P>Nucleic Acid Electrophoresis</P></I><P>Immunoassays</P><I><P>Structure and Thermodynamic of Antigen-Antibody Neutralization</P><P>Kinetic of Antigen-Antibody Neutralization</P><P>Immunoassay Processes</P><P>Western Blot or Immunoelectrophoresis</P><P>Enzyme-Linked Immunosorbent Assay</P><P>Flow Cytometry Assay</P></I><P>Nucleic Acid Sequencing</P><I><P>First-Generation Fragment Sequencing</P><P>Second-Generation Fragment Sequencing</P><P>Third-Generation Fragment Sequencing</P><P>Fragmenting and Assembly Methods</P></I><P>Protein Sequencing and Structural Assessment</P><I><P>Protein Sequencing</P><P>Protein Structure Assessment</P></I><P>References</P><P>Section II: Lab-on-Chip Technology</P><B><P>Planar Technology</P></B><P>Introduction</P><P>Planar Process Flow of a Lab on Chip</P><I><P>Front-End Process Flow</P><P>Back-End Process Flow</P><P>Production Testing Techniques</P><P>In-Field Testing</P></I><P>Micro- and Nano-Fabrication Fabs</P><I><P>Clean Rooms</P><P>Fabrication Materials: Silicon, Silica on Silicon and Pure Silica Wafers</P></I><P>Planar Technology Cost Model</P><I><P>Industrial Cost Models</P><P>Industrial Cost Estimation for Microfluidic-Based Labs on Chip</P></I><P>Photolithography</P><I><P>Wafer Cleaning</P><P>Photoresist Deposition</P><P>Mask Alignment</P><P>Photoresist Exposure</P><P>Post-Exposure Processes</P><P>Photolithography Definition</P></I><P>Electron Beam Lithography</P><P>Etching</P><I><P>Wet Etching Techniques</P><P>Plasma Characteristics and Plasma Generation for Planar</P></I><P>Plasma Characteristics and Plasma Generation for Planar Processes</P><I><P>Dry Etching Techniques</P></I><P>Deposition</P><I><P>Chemical Vapor Deposition</P><P>Physical Vapor Deposition</P><P>Other Physical Deposition Techniques</P></I><P>Wafer Bonding</P><I><P>Planarization</P><P>Adhesive Wafer Bonding</P><P>Direct Wafer Bonding</P><P>Wafer Alignment</P></I><P>References</P><B><P>Polymer Technology</P></B><P>Introduction</P><P>Soft Lithography</P><I><P>Micro-Contact Printing</P><P>Micro-Transfer Molding</P><P>Micro-Molding in Capillaries and Micro-Replica Molding</P></I><P>Deposition Techniques</P><I><P>Polymer Film Deposition through Spray Coating</P><P>Polymer Knife Coating</P><P>Plasma-Enhanced Polymerization</P><P>Langmuir-Blodgett Deposition</P></I><P>Patterning Techniques</P><I><P>Inkjet printing</P><P>Micro-Stereo-Lithography</P></I><P>Micro-Molding</P><I><P>Thin Wall Injection Molding</P><P>Hot Embossing</P></I><P>Lithographie, Galvanik und Abformung</P><I><P>Deep X-Ray Lithography for LIGA</P><P>X-Ray Lithography</P><P>Electroplating</P></I><P>Laser Ablation</P><I><P>Laser Ablation Basics and Mechanism</P><P>Parameters of Laser Ablation</P><P>Laser Ablation Alternative Processes</P></I><P>References</P><B><P>Back-End Technologies</P></B><P>Introduction</P><P>Back-End Requirements and Process Flow</P><P>Hybrid Integration</P><I><P>Chip-on-Chip Integration</P><P>Multi-Chip Packaging</P></I><P>Bonding Techniques in Micro-Fabrication</P><I><P>Gluing</P><P>Laser Welding</P><P>Soldering</P><P>Eutectic Bonding</P></I><P>Back-End Processes</P><I><P>Wafer Dicing and Die Attach</P><P>Electronic Interface Fabrication</P><P>Microfluidic Interface Fabrication</P><P>Optical Interface Fabrication</P></I><P>Temperature Control</P><I><P>Heaters and Thermistors</P><P>Temperature Stabilization by Peltier Elements</P><P>Heating Micro-Systems</P></I><P>References</P><P>Section III: Lab-on-Chip Design</P><B><P>Fluid Dynamics in Microfluidic Circuits</P></B><P>Introduction</P><P>Kinematic of Fluid Motion</P><I><P>The Continuous Fluid Model</P><P>Fluid Motion Description</P><P>Continuity Equation</P></I><P>Fluid Dynamics</P><I><P>The Momentum Evolution Equation</P><P>The Energy Evolution Equation</P><P>Newtonian Liquids Flow in Lab-on-Chip Ducts: Simplified Model</P><P>The Liquid Flow in a Microfluidic Duct: Poiseuille Flow</P><P>Interfaces Phenomena and Droplets</P><P>Non-Newtonian Fluids</P></I><P>Solutions Dynamics: Diffusion</P><I><P>Diffusion Models</P><P>The Diffusion Coefficient</P><P>Diffusion Equation Basic Solutions: Free Diffusion</P><P>Diffusion Equation Basic Solutions: Diffusion in Limited Volumes</P><P>The C. |
| Subject |
Labs on a chip.
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Laboratoires sur puces. |
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Labs on a chip |
| ISBN |
9781351832069 EPUB |
|
1351832069 EPUB |
| Standard No. |
10.1201/9781315216171 doi |
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