| Description |
1 online resource |
| Contents |
Front Cover; Laboratory Methods in Microfluidics; Copyright Page; Contents; About the Author; Preface; Key features; Acknowledgments; 1 Introduction to Microfluidics; 1.1 Background; 1.1.1 What is Microfluidics?; 1.2 Frequently Used Microfluidic Terms; 1.2.1 Laminar Flow; 1.2.2 Electroosmosis and Electrophoresis; 1.2.3 Separation Resolution; 1.3 Assessment Questions; References; 2 Fabrication of a Glass Microfluidic Device; 2.1 Background; 2.1.1 Photolithographic Procedure; 2.1.2 Chemical Wet Etching; 2.1.3 Drilling Access Holes; 2.1.4 Bonding Two Glass Plates; 2.1.5 Putting Fluid Reservoirs |
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2.2 Microfluidic Device Design2.3 Chemicals and Supplies; 2.4 Hazards; 2.5 Experimental Procedure; 2.5.1 Photolithography; 2.5.2 Chemical Wet Etching; 2.5.3 Bonding of Two Glass Plates; 2.5.4 Evaluation of Chip; 2.5.5 Lab Report; 2.6 Additional Notes; 2.7 Assessment Questions; References; 3 Fabrication of a Paper Microfluidic Device for Blood-Plasma Separation; 3.1 Background; 3.1.1 Paper Microfluidics; 3.1.2 Protein Assay; 3.2 Microfluidic Device Design; 3.3 Chemicals and Supplies; 3.4 Hazards; 3.5 Experimental Procedure; 3.5.1 Solution Preparation; 3.5.2 Fabrication of the Device |
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3.5.3 Separation Procedure3.5.4 Lab Report; 3.6 Additional Notes; 3.7 Assessment Questions; References; 4 Fabrication and Testing of a PDMS Microchip; 4.1 Background; 4.2 Design of the Microfluidic Device; 4.3 Chemicals and Supplies; 4.4 Hazards; 4.5 Experimental Procedure; 4.5.1 Fabrication; 4.5.2 Visualization of Laminar Flow; 4.5.3 Lab Report; 4.6 Additional Notes; 4.7 Assessment Questions; References; 5 Determination of Electroosmotic Flow in a Glass Microfluidic Device Using a Neutral Marker; 5.1 Background; 5.2 Microfluidic Device Design; 5.3 Chemicals and Supplies; 5.4 Hazards |
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5.5 Experimental Procedure5.5.1 Solution Preparation; 5.5.2 Microfluidic Device Preparation; 5.5.3 Data Collection; 5.5.4 Lab Report; 5.6 Additional Notes; References; 6 Electrophoretic Separation in a Microchannel; 6.1 Background; 6.2 Design of the Microfluidic Device; 6.3 Chemicals and Supplies; 6.4 Hazards; 6.5 Experimental Procedure; 6.5.1 Sample Preparation; 6.5.2 Electrophoretic Separation; 6.5.3 Switching Samples in the Microchip; 6.5.4 Data Analysis; 6.5.5 Lab Report; 6.6 Additional Notes; 6.7 Assessment Questions; References |
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7 A Simple Experiment for the Study of Droplet Microfluidics7.1 Background; 7.2 Microfluidic Device Design; 7.3 Chemicals and Supplies; 7.4 Hazards; 7.5 Experimental Procedure; 7.5.1 Solution Preparation; 7.5.2 Fabrication of Device (Optional); 7.5.3 Droplet Generation; 7.5.4 Image Analysis and Quantitation; 7.5.5 Lab Report; 7.6 Additional Notes; 7.7 Assessment Questions; References; 8 Laminar Flow and Diffusion in a Microchannel; 8.1 Background; 8.2 Microfluidic Device Design; 8.3 Chemicals and Supplies; 8.4 Hazards; 8.5 Experimental Procedure; 8.5.1 Solution Preparation |
| Summary |
Annotation Microfluidics deals with the manipulation of small volumes of fluids at sub-millimeter scale domain channels. This exciting new field is becoming an increasingly popular subject both for research and education in various disciplines of science, including chemistry, chemical engineering and environmental science. 'Laboratory Methods in Microfluidics' features a range of lab methods and techniques necessary to fully understand microfluidic technology applications |
| Bibliography |
Includes bibliographical references and index |
| Notes |
Online resource, title from PDF title page (EBSCO, viewed June 4, 2017) |
| Subject |
Microfluidics -- Laboratory manuals
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TECHNOLOGY & ENGINEERING -- Engineering (General)
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TECHNOLOGY & ENGINEERING -- Reference.
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Microfluidics
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| Genre/Form |
Electronic books
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Laboratory manuals
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Laboratory manuals.
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Manuels de laboratoire.
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| Form |
Electronic book
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| LC no. |
2017938704 |
| ISBN |
9780128132364 |
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0128132361 |
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