Methods in Bioengineering: Biomicrofabrication and BiomicrofluidicsArtech House, 2010 - 352 páginas This unique volume presents leading-edge microfluidics methods used to handle, manipulate, and analyze cells, particles, and biological components (e.g., proteins and DNA) for microdiagnostics. The authors offer clear and detailed guidance on microfabrication techniques utilized to create microfluidic devices and on-chip flow control and mixing Microsystems, protein and DNA handling devices for electrophoretic and isoelectric separations in microchromatography columns, microfluidic manipulations of droplets via electrowetting and particles via dielectrophoresis for separations and chemical reactions, integrated optical characterization of microfluidic devices, controlling chemical gradients within devices, microimmunoassay diagnostics, multiphase microfluidics used in droplet formation for controlled chemical reactions, particle separation and analysis in Micro-FACS systems, flow characterization techniques in microfluidic devices and patterning and utilizing cytoskeletal filaments and cellular transport protein within microstructures. |
Conteúdo
1 | |
Biomicrofabrication and Biomicrofluidics Chapter 2 Micropumping and Microvalving | 31 |
Biomicrofabrication and Biomicrofluidics Chapter 3 Micromixing Within Microfluidic Devices | 59 |
Biomicrofabrication and Biomicrofluidics Chapter 4 OnChip Electrophoresis and Isoelectric Focusing Methods for Quantitative Biology | 83 |
Biomicrofabrication and Biomicrofluidics Chapter 5 Electrowetting | 111 |
Biomicrofabrication and Biomicrofluidics Chapter 6 Dielectrophoresis for Particle and Cell Manipulations | 133 |
Biomicrofabrication and Biomicrofluidics Chapter 7 Optical Microfluidics for Molecular Diagnostics | 183 |
Biomicrofabrication and Biomicrofluidics Chapter 8 Neutrophil Chemotaxis Assay from Whole Blood Samples | 209 |
Biomicrofabrication and Biomicrofluidics Chapter 10 Droplet Based Microfluidics by ShearDriven Microemulsions | 245 |
Biomicrofabrication and Biomicrofluidics Chapter 11 MicroFACS System | 267 |
Biomicrofabrication and Biomicrofluidics Chapter 12 Optical Flow CharacterizationMicroparticleImage Velocimetry μPIV | 281 |
Biomicrofabrication and Biomicrofluidics Chapter 13 Microtubule Motors in Microfluidics | 311 |
Biomicrofabrication and Biomicrofluidics About the Editor | 338 |
Biomicrofabrication and Biomicrofluidics List of Contributors | 340 |
343 | |
Biomicrofabrication and Biomicrofluidics Chapter 9 Microfluidic Immunoassays | 225 |
Outras edições - Ver todos
Methods in Bioengineering: Biomicrofabrication and Biomicrofluidics Jeffrey D. Zahn Prévia não disponível - 2010 |
Termos e frases comuns
acrylamide analysis analyte antibody applications bonding Brownian motion bubbles buffer capture chaotic advection chemical Chemistry chemotaxis chip components concentration constriction detection diagnostics dielectric dielectrophoresis diffusion Digital Microfluidic droplet electric field electrode array electrokinetic Electroosmotic electrorotation electrowetting etching experimental fabrication Figure flow rate fluidic fluorescent focusing frequency function geometry glass gradient Hydrodynamic immunoassay integrated interface Journal of Micromechanics kinesin lab-on-a-chip labeling laser layer liquid magnetic beads materials measurements membrane methods microchannel Microelectromechanical Systems Microfabricated microFACS systems microfluidic channels microfluidic devices microfluidic systems Micromechanics and Microengineering micromixers micropumps and microvalves microscope microtubules mixing molecules motors neutrophils on-chip optical parameters particles pattern PDMS phase photoresist pixel plasma polymer polymerization potential pressure protein protocol pump ratio reagents sample separation Sigma-Aldrich silane silicon solution spatial streams substrate surface surface plasmon resonance syringe techniques Technology temperature tion trapping tubing tubulin valve velocity voltage wafer