Multidisciplinary Microfluidic and Nanofluidic Lab-on-a-Chip
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portes grátis
Multidisciplinary Microfluidic and Nanofluidic Lab-on-a-Chip
Principles and Applications
Li, Paul C. H.; Yang, Chaoyong; Li, Xiujun (James)
Elsevier Science & Technology
09/2021
484
Dura
Inglês
9780444594327
15 a 20 dias
1000
Descrição não disponível.
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
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D printing; Acoustic tweezers; Acoustics; Acoustofluidics; Amplification free; Animal model; Application; Biomedical application; Biomedicine; CFD; Cancer biology; Capillary; Cell analysis; Cell manipulation; Cell separation; Cell treatment; Chemistry; Detector; Disease biomarkers; Droplet microfluidics; Drug development; Drug discovery; Electrokinetic injection; Energy harvesting; ?CEC; ?CZE; ?IEF; ?MEKC; Floating mode; Flow sensing; Gated mode; Hybrid devices; Hybridization; Hydrodynamic injection; Immunoassay; Integration; Interface; Isothermal amplification; Lab-on-a-chip; Low cost; Magnetic particles; Micro-electro-mechanical systems (MEMS); Microchip CITP; Microchip capillary electrophoresis; Microchip capillary gel electrophoresis; Microchip two-dimensional electrophoresis; Microfluid and nanofluidics; Microfluidic chip; Microfluidic chips; Microfluidic platform; Microfluidics; Microfluidics nozzle; Microscale reactors; Modular microfluidics; Nano-in-nano integration; Nanofluidics; Nanomaterials; Natural convection; Nucleic acid detection; Nucleic acid test; Organ-on-a-chip; Paper-based microfluidics; Pharmaceutical analysis; Pinched mode; Point-of-care detection; Polymerase chain reaction (PCR); Protein analysis; Protein separation; Rapid disease diagnostics; Redox MHD; Reproducing organ functions; Self-powered devices; Separation resolution; Separation speed; Single molecule studies; Single nucleotide polymorphism; Soft photolithography; Spreading; Surface; Synthesis; Thermoplastic polymer (hydrogels or paper)-based microfluidics; Triboelectric nanogenerator; Wetting; ?CEC; ?CZE; ?IEF; ?MEKC
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
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D printing; Acoustic tweezers; Acoustics; Acoustofluidics; Amplification free; Animal model; Application; Biomedical application; Biomedicine; CFD; Cancer biology; Capillary; Cell analysis; Cell manipulation; Cell separation; Cell treatment; Chemistry; Detector; Disease biomarkers; Droplet microfluidics; Drug development; Drug discovery; Electrokinetic injection; Energy harvesting; ?CEC; ?CZE; ?IEF; ?MEKC; Floating mode; Flow sensing; Gated mode; Hybrid devices; Hybridization; Hydrodynamic injection; Immunoassay; Integration; Interface; Isothermal amplification; Lab-on-a-chip; Low cost; Magnetic particles; Micro-electro-mechanical systems (MEMS); Microchip CITP; Microchip capillary electrophoresis; Microchip capillary gel electrophoresis; Microchip two-dimensional electrophoresis; Microfluid and nanofluidics; Microfluidic chip; Microfluidic chips; Microfluidic platform; Microfluidics; Microfluidics nozzle; Microscale reactors; Modular microfluidics; Nano-in-nano integration; Nanofluidics; Nanomaterials; Natural convection; Nucleic acid detection; Nucleic acid test; Organ-on-a-chip; Paper-based microfluidics; Pharmaceutical analysis; Pinched mode; Point-of-care detection; Polymerase chain reaction (PCR); Protein analysis; Protein separation; Rapid disease diagnostics; Redox MHD; Reproducing organ functions; Self-powered devices; Separation resolution; Separation speed; Single molecule studies; Single nucleotide polymorphism; Soft photolithography; Spreading; Surface; Synthesis; Thermoplastic polymer (hydrogels or paper)-based microfluidics; Triboelectric nanogenerator; Wetting; ?CEC; ?CZE; ?IEF; ?MEKC
