Multidisciplinary Microfluidic and Nanofluidic Lab-on-a-Chip: Principles and Applications
Editat de Xiujun (James) Li, Chaoyong Yang, Paul C. H. Lien Limba Engleză Hardback – 22 sep 2021
Calculations, solved problems, data tables, and design rules are provided to help researchers understand microfluidic basic theory and principles and apply this knowledge to their own unique designs. Recent advances in microfluidics and microsystems for life sciences are impacting chemistry, biophysics, molecular, cell biology, and medicine for applications that include DNA analysis, drug discovery, disease research, and biofluid and environmental monitoring.
- Provides calculations, solved problems, data tables and design rules to help understand microfluidic basic theory and principles
- Gives an applied understanding of the principles behind the design, manufacture, and testing of microfluidic systems
- Emphasizes on quickly developing and emerging areas, including digital microfluidics, nanofluidics, papers-based microfluidics, and cell biology
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Specificații
ISBN-13: 9780444594327
ISBN-10: 0444594329
Pagini: 484
Dimensiuni: 191 x 235 x 30 mm
Greutate: 1.04 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0444594329
Pagini: 484
Dimensiuni: 191 x 235 x 30 mm
Greutate: 1.04 kg
Editura: ELSEVIER SCIENCE
Public țintă
researchers in analytical chemistry, biology and engineering, researchers enrolled in a lab-on-chip, microfluidics, or biomedical devices course or engaged in research related fields.researchers in medical instrumentation, health sciences, biotechnology, pharmaceuticals, and engineering professionals and industries wishing an overview of the microfluidics and life sciences microsystems fields.
Cuprins
Part I: Fundamentals of microfluidic/nanofluidic lab-on-a-chip1. Micromachining Methods2. Micromachining of silicon, glass devices3. Micromachining of polymers4. Fabrication of paper-based microfluidic devices5. Biocompatibility and surface modifications6. Systems interconnect and world-to-chip interface7. Microfluidic Flow control
Part II: New Emerging Techniques8. Droplet microfluidics9. Closed-channel Droplet generation10. Open-format Digital microfluidics11. Nanofluidics12. Nanofabrication13. Characteristics of nanofluidics
Part III: Applications14. Applications to Cell Biology15. Manipulation of cells 16. Cellular measurements and analysis17. Single-cell analysis18. 3D cell culture19. Organs-on-a-chip20. Applications to Nuclei Aids Analysis21. Nucleic acids extraction and purification22. Nucleic acids amplification23. Forensic DNA typing24. Microarray DNA chips25. Applications to proteins analysis26. Immunoassay27. Protein separation28. Enzymatic analysis29. Proteomics30. Applications to global health31. Low-cost Paper-based diagnosis devices32. Field diagnosis33. Other applications43. Environmental analysis44. Forensic analysis45. Small ions and molecules analysis46. Microreacter47. Perspective48. Instrument/device commercialization
Part II: New Emerging Techniques8. Droplet microfluidics9. Closed-channel Droplet generation10. Open-format Digital microfluidics11. Nanofluidics12. Nanofabrication13. Characteristics of nanofluidics
Part III: Applications14. Applications to Cell Biology15. Manipulation of cells 16. Cellular measurements and analysis17. Single-cell analysis18. 3D cell culture19. Organs-on-a-chip20. Applications to Nuclei Aids Analysis21. Nucleic acids extraction and purification22. Nucleic acids amplification23. Forensic DNA typing24. Microarray DNA chips25. Applications to proteins analysis26. Immunoassay27. Protein separation28. Enzymatic analysis29. Proteomics30. Applications to global health31. Low-cost Paper-based diagnosis devices32. Field diagnosis33. Other applications43. Environmental analysis44. Forensic analysis45. Small ions and molecules analysis46. Microreacter47. Perspective48. Instrument/device commercialization