Functionalized Nanomaterial-Based Electrochemical Sensors
Principles, Fabrication Methods, and Applications
Herausgegeben:Manjunatha, Jamballi G.; Mustansar Hussain, Chaudhery
Functionalized Nanomaterial-Based Electrochemical Sensors
Principles, Fabrication Methods, and Applications
Herausgegeben:Manjunatha, Jamballi G.; Mustansar Hussain, Chaudhery
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Functionalized Nanomaterial-Based Electrochemical Sensors: Principles, Fabrication Methods, and Applications provides a comprehensive overview of materials, functionalized interfaces, fabrication strategies and application areas. Special attention is given to the remaining challenges and opportunities for commercial realization of functionalized nanomaterial-based electrochemical sensors. An assortment of nanomaterials has been investigated for their incorporation into electrochemical sensors. For example, carbon- based nanomaterials (carbon nanotube, graphene and carbon fiber), noble metals…mehr
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Application areas touched on include the environment, food and medicine industries. Health, safety and regulation considerations are touched on, along with economic and commercialization trends.
- Produktdetails
- Woodhead Publishing Series in Electronic and Optical Materials
- Verlag: Elsevier Science & Technology / Woodhead Publishing
- Artikelnr. des Verlages: C2020-0-01065-0
- Englisch
- Abmessung: 27mm x 152mm x 229mm
- Gewicht: 1000g
- ISBN-13: 9780128237885
- Artikelnr.: 62222854
- Woodhead Publishing Series in Electronic and Optical Materials
- Verlag: Elsevier Science & Technology / Woodhead Publishing
- Artikelnr. des Verlages: C2020-0-01065-0
- Englisch
- Abmessung: 27mm x 152mm x 229mm
- Gewicht: 1000g
- ISBN-13: 9780128237885
- Artikelnr.: 62222854
Prof. Chaudhery Mustansar Hussain is an Adjunct Professor and Director of laboratories in the Department of Chemistry & Environmental Sciences at the New Jersey Institute of Technology (NJIT), Newark, New Jersey, United States. His research is focused on the applications of nanotechnology and advanced materials, environmental management, analytical chemistry, and other various industries. Dr. Hussain is the author of numerous papers in peer-reviewed journals as well as a prolific author and editor of around 150 books, including scientific monographs and handbooks in his research areas.
Section B - Fabrication of functionalized nanomaterial-based electrochemical sensors platforms 3. Application of hybrid nanomaterials for development of electrochemical sensors 4. Biofunctionalization of functionalized nanomaterials for electrochemical sensors
Section C - Functionalized carbon nanomaterial-based electrochemical sensors 5. Functionalized carbon nanomaterials in electrochemical detection 6. Functionalized carbon material-based electrochemical sensors for day-to-day applications
Section D - Noble metals, non-noble metal oxides and non-carbon-based electrochemical sensors 7. Noble metals and nonnoble metal oxides based electrochemical sensors
Section E - Functionalized nanomaterial-based electrochemical based sensors for environmental applications 8. Functionalized nanomaterial-based environmental sensors: An overview 9. Advantages and limitations of functionalized nanomaterials based electrochemical sensors environmental monitoring
Section F - Functionalized nanomaterial-based electrochemical sensors technology for food and beverages applications 10. Attributes of functionalized nanomaterial-based electrochemical sensors for food and beverage analysis 11. The use of FNMs-based electrochemical sensors in the food and beverage industry 12. Trends in functionalized NMs-based electrochemical sensors in the food and beverage industry
Section G - Functionalized nanomaterial-based electrochemical sensors for point-of-care applications 13. Functionalized nanomaterial-based medical sensors for point-of-care applications: An overview 14. Functionalized nanomaterial-based electrochemical sensors for point-of-care devices 15. Current trends of functionalized nanomaterial-based sensors in point-of-care diagnosis
Section H - Health, safety, and regulations issues of functionalized nanomaterials 16. Current status of environmental, health, and safety issues of functionalized nanomaterials 17. Functionalized metal and metal oxide nanomaterial-based electrochemical sensors 18. Functionalized nanomaterials and workplace health and safety 19. Layer-by-layer nanostructured films for electrochemical sensors fabrication
Section I - Economics and commercialization of functionalized nanomaterial-based electrochemical sensors 20. Fabrication of functionalized nanomaterial-based electrochemical sensors' platforms 21. Advantages and limitations of functionalized graphene-based electrochemical sensors for environmental monitoring 22. TiO2 nanotube arrays grafted with metals with enhanced electroactivity for electrochemical sensors and devices
Section J - Future of functionalized nanomaterial-based electrochemical sensors 23. Functionalized carbon nanomaterial-based electrochemical sensors: Quick look on the future of fitness
Section B - Fabrication of functionalized nanomaterial-based electrochemical sensors platforms 3. Application of hybrid nanomaterials for development of electrochemical sensors 4. Biofunctionalization of functionalized nanomaterials for electrochemical sensors
Section C - Functionalized carbon nanomaterial-based electrochemical sensors 5. Functionalized carbon nanomaterials in electrochemical detection 6. Functionalized carbon material-based electrochemical sensors for day-to-day applications
Section D - Noble metals, non-noble metal oxides and non-carbon-based electrochemical sensors 7. Noble metals and nonnoble metal oxides based electrochemical sensors
Section E - Functionalized nanomaterial-based electrochemical based sensors for environmental applications 8. Functionalized nanomaterial-based environmental sensors: An overview 9. Advantages and limitations of functionalized nanomaterials based electrochemical sensors environmental monitoring
Section F - Functionalized nanomaterial-based electrochemical sensors technology for food and beverages applications 10. Attributes of functionalized nanomaterial-based electrochemical sensors for food and beverage analysis 11. The use of FNMs-based electrochemical sensors in the food and beverage industry 12. Trends in functionalized NMs-based electrochemical sensors in the food and beverage industry
Section G - Functionalized nanomaterial-based electrochemical sensors for point-of-care applications 13. Functionalized nanomaterial-based medical sensors for point-of-care applications: An overview 14. Functionalized nanomaterial-based electrochemical sensors for point-of-care devices 15. Current trends of functionalized nanomaterial-based sensors in point-of-care diagnosis
Section H - Health, safety, and regulations issues of functionalized nanomaterials 16. Current status of environmental, health, and safety issues of functionalized nanomaterials 17. Functionalized metal and metal oxide nanomaterial-based electrochemical sensors 18. Functionalized nanomaterials and workplace health and safety 19. Layer-by-layer nanostructured films for electrochemical sensors fabrication
Section I - Economics and commercialization of functionalized nanomaterial-based electrochemical sensors 20. Fabrication of functionalized nanomaterial-based electrochemical sensors' platforms 21. Advantages and limitations of functionalized graphene-based electrochemical sensors for environmental monitoring 22. TiO2 nanotube arrays grafted with metals with enhanced electroactivity for electrochemical sensors and devices
Section J - Future of functionalized nanomaterial-based electrochemical sensors 23. Functionalized carbon nanomaterial-based electrochemical sensors: Quick look on the future of fitness