Microfluidics and Nanofluidics Handbook
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portes grátis
Microfluidics and Nanofluidics Handbook
Chemistry, Physics, and Life Science Principles
Mitra, Sushanta K.; Chakraborty, Suman
Taylor & Francis Ltd
03/2018
1126
Mole
Inglês
9781138076419
15 a 20 dias
453
Descrição não disponível.
Physics and Transport Phenomena: An Overview of Continuum Description of Fluid Flow and Transport Processes. Microscale Gas Flow Dynamics and Molecular Models for Gas Flow and Heat Transfer. Calculations of Rarefied Gas Flows in Free-Molecular and Transitional Regimes. Ideal Gas Flows through Micro-Channels-Revisited. Pressure-Driven Flow in Microchannels. Applications of Magnetohydrodynamics in Microfluidics. Diffusio-Osmosis of Electrolyte Solutions in Microscale and Nanoscale. Electrodics in Electrochemical Energy Conversion Systems: Microstructure and Pore-Scale Transport. Van der Waals Interaction. Single-Particle Colloidal Hydrodynamics. Mass Transfer Issues in Micro- and Nanoscale. Gas Transport in Microcapillaries, Nanocapillaries, and Porous Media. Polymer Transport in Nanochannels. Fluid Friction and Heat Transfer in Microchannels. Nonboiling Two-Phase Flow in Microchannels. Heat Transfer Analysis in Electro-Osmotically Driven Microchannel Flows. Analysis of Modes during Bubble Growth in Saturated Film Boiling. Physics and Modeling of Turbulent Transport. Life Sciences and Related Applications: Biotechnology for Bioengineers. Cellular Biomicrofluidics. Cell Lysis Techniques in Lab-on-a-Chip Technology. Microfluidic Cell Culture Devices. Probing Cells with Nanotechnology. Genomics and DNA Microarrays. Micro-PCR Devices for Lab-on-a-Chip Applications. Microscopic Hemorheology and Hemodynamics. Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Microencapsulated Phase Change Material;Turbulent Kinetic Energy Spectrum;Physics and Transport Phenomena;Fahraeus Lindqvist Effect;Life Sciences and Related Applications;DNA Microarray Technology;Ideal Gas Flows Through Microchannels-Revisited;Knudsen Number;Pressure-Driven Flow in Microchannels;Lb Method;Cellular Biomicrofluidics;DSMC Method;Sample Preparation;DSMC Simulation;PCR Chamber;DNS Model;Regime Iii;Slip Length;RBC Aggregation;Local Knudsen Number;Cathode Cl;Cell Culture Devices;Wall Superheat;Turbulent Kinetic Energy;Van Der Waals Interaction Energy;Glass Micropipettes;Study Protein DNA Interaction;DNA Microarrays;Cl Thickness;Scale Similarity Model
Physics and Transport Phenomena: An Overview of Continuum Description of Fluid Flow and Transport Processes. Microscale Gas Flow Dynamics and Molecular Models for Gas Flow and Heat Transfer. Calculations of Rarefied Gas Flows in Free-Molecular and Transitional Regimes. Ideal Gas Flows through Micro-Channels-Revisited. Pressure-Driven Flow in Microchannels. Applications of Magnetohydrodynamics in Microfluidics. Diffusio-Osmosis of Electrolyte Solutions in Microscale and Nanoscale. Electrodics in Electrochemical Energy Conversion Systems: Microstructure and Pore-Scale Transport. Van der Waals Interaction. Single-Particle Colloidal Hydrodynamics. Mass Transfer Issues in Micro- and Nanoscale. Gas Transport in Microcapillaries, Nanocapillaries, and Porous Media. Polymer Transport in Nanochannels. Fluid Friction and Heat Transfer in Microchannels. Nonboiling Two-Phase Flow in Microchannels. Heat Transfer Analysis in Electro-Osmotically Driven Microchannel Flows. Analysis of Modes during Bubble Growth in Saturated Film Boiling. Physics and Modeling of Turbulent Transport. Life Sciences and Related Applications: Biotechnology for Bioengineers. Cellular Biomicrofluidics. Cell Lysis Techniques in Lab-on-a-Chip Technology. Microfluidic Cell Culture Devices. Probing Cells with Nanotechnology. Genomics and DNA Microarrays. Micro-PCR Devices for Lab-on-a-Chip Applications. Microscopic Hemorheology and Hemodynamics. Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Microencapsulated Phase Change Material;Turbulent Kinetic Energy Spectrum;Physics and Transport Phenomena;Fahraeus Lindqvist Effect;Life Sciences and Related Applications;DNA Microarray Technology;Ideal Gas Flows Through Microchannels-Revisited;Knudsen Number;Pressure-Driven Flow in Microchannels;Lb Method;Cellular Biomicrofluidics;DSMC Method;Sample Preparation;DSMC Simulation;PCR Chamber;DNS Model;Regime Iii;Slip Length;RBC Aggregation;Local Knudsen Number;Cathode Cl;Cell Culture Devices;Wall Superheat;Turbulent Kinetic Energy;Van Der Waals Interaction Energy;Glass Micropipettes;Study Protein DNA Interaction;DNA Microarrays;Cl Thickness;Scale Similarity Model
