Bioelectronics (eBook, ePUB)
Materials, Technologies, and Emerging Applications
Redaktion: Kumar, Anuj; Gupta, Ram K.
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Bioelectronics (eBook, ePUB)
Materials, Technologies, and Emerging Applications
Redaktion: Kumar, Anuj; Gupta, Ram K.
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This book provides extensive information on the fundamental concepts of bioelectronics, materials for the developments of bioelectronics such as implantable electronics, self-powered devices, bioelectronic sensors, flexible bioelectronics, and an overview of the trends and gathering of the latest bioelectronic progress.
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- Größe: 12.67MB
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This book provides extensive information on the fundamental concepts of bioelectronics, materials for the developments of bioelectronics such as implantable electronics, self-powered devices, bioelectronic sensors, flexible bioelectronics, and an overview of the trends and gathering of the latest bioelectronic progress.
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 412
- Erscheinungstermin: 8. Dezember 2022
- Englisch
- ISBN-13: 9781000789478
- Artikelnr.: 66213509
- Verlag: Taylor & Francis
- Seitenzahl: 412
- Erscheinungstermin: 8. Dezember 2022
- Englisch
- ISBN-13: 9781000789478
- Artikelnr.: 66213509
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Dr. Anuj Kumar is an assistant professor at GLA University, Mathura, India. His research focus is on molecular as well M-N-C electrocatalysts for H2, O2, and CO2 involving electrocatalysis, nanomaterials, nanocomposites, fuel cells, water electrolyzers, nanosensors, bio-inorganic chemistry, and macrocyclic chemistry. He has published more than 80 articles in reputed peer-reviewed international journals. He has also contributed more than 12 book chapters to Elsevier, Springer, CRC Press, and Bentham Science book series. For outstanding contribution in his research field, he has been the recipient of "Best Young Scientist Award 2021" from the Tamil Nadu Association of Intellectuals and Faculty (TAIF) and GRBS Educational Charitable Trust, India, and the "Young Researcher Award 2020" by Central Education Growth and Research (CEGR), India. He is serving as a section editor, guest editor, and editorial board member for various journals. Dr. Ram Gupta is an associate professor at Pittsburg State University. Dr. Gupta's research focuses on nanomagnetism, nanomaterials, green energy production and storage using conducting polymers and composites, electrocatalysts for fuel cells, optoelectronics and photovoltaics devices, organic-inorganic hetero-junctions for sensors, bio-based polymers, bio-compatible nanofibers for tissue regeneration, scaffold and antibacterial applications, and biodegradable metallic implants. Dr. Gupta published over 250 peer reviewed articles, made over 300 national/international/regional presentations, chaired many sessions at national/international meetings, and edited/written several books/ chapters for leading publishers. He has received over $2.5 million for research and educational activities from external agencies. He is serving as an associate editor, guest editor, and editorial board member for various journals.
1. Introduction to Bioelectronics
2. Materials and Their Classifications in Bioelectronics
3. 2D Materials for Bioelectronics
4. Materials for Organic Bioelectronics
5. Nanomaterials and Lab-on-a-Chip Technologies
6. CMOS Bioelectronics: Current and Future Trends
7. Identification of the Scientific and Technological Trajectory in the
Area of Bioelectronics: A Patent and Networks Analysis
8. Innovative Electronic Approaches for Biomarker Detection
9. Bioinspired Prosthetic Interfaces for Bioelectronics
10. Biocompatible and Biodegradable Organic Transistors
11. Microbial Nanowires
12. Semiconducting Nanostructured Materials for Bioelectronics
13. Wide-Bandgap Semiconductors for Bioelectronics
14. Recent Advancements in MOFs based Nanogenerators for Bioelectronics
15. MXenes-Based Composites for Bioelectronics
16. Bioelectronics with Graphene Nanostructures
17. Nanomaterial-Assisted Bioelectronic Devices towards Biocomputer
18. Conductive Hydrogels for Bioelectronics
19. Conducting Polymer Composites for Metabolite Sensing
20. Self-Powered Devices: A New Paradigm in Biomedical Engineering
21. Implantable Microelectronics
22. Printable and Flexible Biosensors
23. Conducting Polymer-based Biocomposites in Flexible Bioelectronics
2. Materials and Their Classifications in Bioelectronics
3. 2D Materials for Bioelectronics
4. Materials for Organic Bioelectronics
5. Nanomaterials and Lab-on-a-Chip Technologies
6. CMOS Bioelectronics: Current and Future Trends
7. Identification of the Scientific and Technological Trajectory in the
Area of Bioelectronics: A Patent and Networks Analysis
8. Innovative Electronic Approaches for Biomarker Detection
9. Bioinspired Prosthetic Interfaces for Bioelectronics
10. Biocompatible and Biodegradable Organic Transistors
11. Microbial Nanowires
12. Semiconducting Nanostructured Materials for Bioelectronics
13. Wide-Bandgap Semiconductors for Bioelectronics
14. Recent Advancements in MOFs based Nanogenerators for Bioelectronics
15. MXenes-Based Composites for Bioelectronics
16. Bioelectronics with Graphene Nanostructures
17. Nanomaterial-Assisted Bioelectronic Devices towards Biocomputer
18. Conductive Hydrogels for Bioelectronics
19. Conducting Polymer Composites for Metabolite Sensing
20. Self-Powered Devices: A New Paradigm in Biomedical Engineering
21. Implantable Microelectronics
22. Printable and Flexible Biosensors
23. Conducting Polymer-based Biocomposites in Flexible Bioelectronics
1. Introduction to Bioelectronics
2. Materials and Their Classifications in Bioelectronics
3. 2D Materials for Bioelectronics
4. Materials for Organic Bioelectronics
5. Nanomaterials and Lab-on-a-Chip Technologies
6. CMOS Bioelectronics: Current and Future Trends
7. Identification of the Scientific and Technological Trajectory in the
Area of Bioelectronics: A Patent and Networks Analysis
8. Innovative Electronic Approaches for Biomarker Detection
9. Bioinspired Prosthetic Interfaces for Bioelectronics
10. Biocompatible and Biodegradable Organic Transistors
11. Microbial Nanowires
12. Semiconducting Nanostructured Materials for Bioelectronics
13. Wide-Bandgap Semiconductors for Bioelectronics
14. Recent Advancements in MOFs based Nanogenerators for Bioelectronics
15. MXenes-Based Composites for Bioelectronics
16. Bioelectronics with Graphene Nanostructures
17. Nanomaterial-Assisted Bioelectronic Devices towards Biocomputer
18. Conductive Hydrogels for Bioelectronics
19. Conducting Polymer Composites for Metabolite Sensing
20. Self-Powered Devices: A New Paradigm in Biomedical Engineering
21. Implantable Microelectronics
22. Printable and Flexible Biosensors
23. Conducting Polymer-based Biocomposites in Flexible Bioelectronics
2. Materials and Their Classifications in Bioelectronics
3. 2D Materials for Bioelectronics
4. Materials for Organic Bioelectronics
5. Nanomaterials and Lab-on-a-Chip Technologies
6. CMOS Bioelectronics: Current and Future Trends
7. Identification of the Scientific and Technological Trajectory in the
Area of Bioelectronics: A Patent and Networks Analysis
8. Innovative Electronic Approaches for Biomarker Detection
9. Bioinspired Prosthetic Interfaces for Bioelectronics
10. Biocompatible and Biodegradable Organic Transistors
11. Microbial Nanowires
12. Semiconducting Nanostructured Materials for Bioelectronics
13. Wide-Bandgap Semiconductors for Bioelectronics
14. Recent Advancements in MOFs based Nanogenerators for Bioelectronics
15. MXenes-Based Composites for Bioelectronics
16. Bioelectronics with Graphene Nanostructures
17. Nanomaterial-Assisted Bioelectronic Devices towards Biocomputer
18. Conductive Hydrogels for Bioelectronics
19. Conducting Polymer Composites for Metabolite Sensing
20. Self-Powered Devices: A New Paradigm in Biomedical Engineering
21. Implantable Microelectronics
22. Printable and Flexible Biosensors
23. Conducting Polymer-based Biocomposites in Flexible Bioelectronics