Handbook of Bioelectronics
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portes grátis
Handbook of Bioelectronics
Directly Interfacing Electronics and Biological Systems
Iniewski, Krzysztof; Carrara, Sandro
Cambridge University Press
08/2015
588
Dura
Inglês
9781107040830
15 a 20 dias
1440
Descrição não disponível.
1. What is bioelectronics?; Part I. Electronic Components: 2. Molecular components for electronics; 3. Nano-gaps based devices; 4. Organic thin-film transistors for biological applications; 5. Protein-based transistors; 6. Single molecule bioelectronics; 7. Biomemory device composed of recombinant protein variants; Part II. Biosensors: 8. Biosensors; 9. CNT and proteins for biosensors in personalized therapy; 10. CMOS nanowire biosensing systems; 11. Cell-array biosensors; 12. Pulse radar sensor for contactless respiratory rate monitoring; 13. MagCMOS; 14. Metamorphic neural interfaces with insects for remote controlled biobots; Part III. Fuel Cells: 15. Biological fuel cells; 16. Advances and applications of biofuel cells; 17. Switchable electrodes and biofuel cells logically controlled by chemical and biochemical signals; Part IV. Biomimetic Systems: 18. Biomimetic systems; 19. Epidermial electronics: flexible electronics for biomedical applications; 20. Bioelectronics brain using memristive polymer statistical systems; 21. Electronic design of synthetic genetic networks; Part V. Bionics: 22. Bionics; 23. Bio-electronics interfaces for artificially driven human movements; 24. The bionic eye: a review of multi-electrode arrays; 25. CMOS technologies for retinal prosthesis; 26. Restoration of sight with photovoltaic retinal prosthesis; Part VI. Brain Interfaces: 27. Brain-machine interfaces; 28. ECG technology for the brain-machine interface; 29. Reducing the implant footprint: low-area neural recording; 30. Electrical stimulation; 31. Miniaturized implantable UWB antennas optimized for wireless brain machine interfaces; 32. Intracranial epilepsy monitoring using a wireless neural recording system; 33. Low power building blocks for neural recording systems; 34. CMOS circuits for intracells brain-machine interfaces; Part VII. Lab-on-a-Chip: 35. Lab-on-a-chip; 36. CMOS spectrally-multiplexed FRET contact imaging microsystem for DNA analysis; 37. CMOS electrochemical biosensors: instrumentation and integration; 38. Digital microfluidic biochips: towards hardware/software co-design and cyberphysical system integration; 39. CMOS based biomolecular sensor system-on-chip; Part VIII. Future Perspectives: 40. Future perspective in bioelectronics; 41. Real-time activity energy expenditure estimation for embedded ambulatory systems; 42. Innovative electronic systems for health management; 43. Linking the cyber and the biological world: the ensemble is the function; 44. Conclusion: personal electronics and distributed theragnostics.
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1. What is bioelectronics?; Part I. Electronic Components: 2. Molecular components for electronics; 3. Nano-gaps based devices; 4. Organic thin-film transistors for biological applications; 5. Protein-based transistors; 6. Single molecule bioelectronics; 7. Biomemory device composed of recombinant protein variants; Part II. Biosensors: 8. Biosensors; 9. CNT and proteins for biosensors in personalized therapy; 10. CMOS nanowire biosensing systems; 11. Cell-array biosensors; 12. Pulse radar sensor for contactless respiratory rate monitoring; 13. MagCMOS; 14. Metamorphic neural interfaces with insects for remote controlled biobots; Part III. Fuel Cells: 15. Biological fuel cells; 16. Advances and applications of biofuel cells; 17. Switchable electrodes and biofuel cells logically controlled by chemical and biochemical signals; Part IV. Biomimetic Systems: 18. Biomimetic systems; 19. Epidermial electronics: flexible electronics for biomedical applications; 20. Bioelectronics brain using memristive polymer statistical systems; 21. Electronic design of synthetic genetic networks; Part V. Bionics: 22. Bionics; 23. Bio-electronics interfaces for artificially driven human movements; 24. The bionic eye: a review of multi-electrode arrays; 25. CMOS technologies for retinal prosthesis; 26. Restoration of sight with photovoltaic retinal prosthesis; Part VI. Brain Interfaces: 27. Brain-machine interfaces; 28. ECG technology for the brain-machine interface; 29. Reducing the implant footprint: low-area neural recording; 30. Electrical stimulation; 31. Miniaturized implantable UWB antennas optimized for wireless brain machine interfaces; 32. Intracranial epilepsy monitoring using a wireless neural recording system; 33. Low power building blocks for neural recording systems; 34. CMOS circuits for intracells brain-machine interfaces; Part VII. Lab-on-a-Chip: 35. Lab-on-a-chip; 36. CMOS spectrally-multiplexed FRET contact imaging microsystem for DNA analysis; 37. CMOS electrochemical biosensors: instrumentation and integration; 38. Digital microfluidic biochips: towards hardware/software co-design and cyberphysical system integration; 39. CMOS based biomolecular sensor system-on-chip; Part VIII. Future Perspectives: 40. Future perspective in bioelectronics; 41. Real-time activity energy expenditure estimation for embedded ambulatory systems; 42. Innovative electronic systems for health management; 43. Linking the cyber and the biological world: the ensemble is the function; 44. Conclusion: personal electronics and distributed theragnostics.
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