Robotics for Cell Manipulation and Characterization
Editat de Changsheng Dai, Guanqiao Shan, Yu Sunen Limba Engleză Paperback – 26 apr 2023
- Focuses on, and comprehensively covers, robotics for cell manipulation and characterization
- Highlights recent advances in cell biology and disease treatment enabled by robotic cell manipulation and characterization
- Provides insightful outlooks on future challenges and opportunities
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Specificații
ISBN-13: 9780323952132
ISBN-10: 0323952135
Pagini: 400
Dimensiuni: 152 x 229 x 25 mm
Greutate: 0.54 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0323952135
Pagini: 400
Dimensiuni: 152 x 229 x 25 mm
Greutate: 0.54 kg
Editura: ELSEVIER SCIENCE
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Public țintă
Researchers and practitioners who are interested in small-scale robotic systems for cell manipulation and characterization.Healthcare professionals interested in nanoscale, microscale, milli-scale robotic techniques for disease diagnosis and clinical cell surgeries.
Undergraduate students who are interested in learning the area of robotics applied to manipulating and characterizing biological cells.
Cuprins
Part I: Robotic cell manipulation
1. Introduction of robotics for cell manipulation and characterization
2. Robotic cell injection with force sensing and control
3. Robotic orientation control and enucleation of cells
4. Robotic cell manipulation for in vitro fertilization
5. Robotic cell transport for tissue engineering
6. Robotic cell biopsy for disease diagnosis
7. 3D Force-Feedback Optical Tweezers for Experimental Biology
8. Magnetically driven robots for clinical treatment
Part II: Robotic cell characterization
9. Robotic cell electrophysiological characterization for drug discovery
10. Automated cell aspiration for genetic and mechanical analysis
11. Cell characterization by nanonewton force sensing
12. Cellular mechanical measurement by magnetic robots
13. Nanorobotics for investigating cell mechanics based on atomic force microscopy
14. Robotic manipulation of zebrafish larva for disease therapy
15. Acoustic field to separate cells for health monitoring
16. Separation and characterization of cells using electrical field
1. Introduction of robotics for cell manipulation and characterization
2. Robotic cell injection with force sensing and control
3. Robotic orientation control and enucleation of cells
4. Robotic cell manipulation for in vitro fertilization
5. Robotic cell transport for tissue engineering
6. Robotic cell biopsy for disease diagnosis
7. 3D Force-Feedback Optical Tweezers for Experimental Biology
8. Magnetically driven robots for clinical treatment
Part II: Robotic cell characterization
9. Robotic cell electrophysiological characterization for drug discovery
10. Automated cell aspiration for genetic and mechanical analysis
11. Cell characterization by nanonewton force sensing
12. Cellular mechanical measurement by magnetic robots
13. Nanorobotics for investigating cell mechanics based on atomic force microscopy
14. Robotic manipulation of zebrafish larva for disease therapy
15. Acoustic field to separate cells for health monitoring
16. Separation and characterization of cells using electrical field