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Functionalized nanomaterial-based electrochemical sensors : principles, fabrication methods, and applications / edited by Chaudhery Mustansar Hussain, Jamballi G. Manjunatha.

Contributor(s): Hussain, Chaudhery Mustansar [editor.] | Manjunatha, Jamballi G [editor.].
Material type: materialTypeLabelBookSeries: Woodhead Publishing series in electronic and optical materials: Publisher: Duxford : Woodhead Publishing, 2022Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9780128241851; 0128241853.Subject(s): Electrochemical sensors | Nanostructured materials | Nanostructures | D�etecteurs �electrochimiques | Nanomat�eriaux | Electrochemical sensors | Nanostructured materialsAdditional physical formats: Print version:: Functionalized nanomaterial-based electrochemical sensors.DDC classification: 681.2 | 610.28 Online resources: ScienceDirect
Contents:
<P><b>Section A -- Modern perspective in electrochemical-based sensors: Functionalized nanomaterials (FNMs)</b></p> <p>1. Functionalized nanomaterial-based electrochemical sensors: A sensitive sensor platform</p> <p>2. Recent progress in the graphene functionalized nanomaterial-based electrochemical sensors</p> <p><b>Section B -- Fabrication of functionalized nanomaterial-based electrochemical sensors platforms</b></p> <p>3. Application of hybrid nanomaterials for development of electrochemical sensors</p> <p>4. Biofunctionalization of functionalized nanomaterials for electrochemical sensors</p> <p><b>Section C -- Functionalized carbon nanomaterial-based electrochemical sensors</b></p> <p>5. Functionalized carbon nanomaterials in electrochemical detection</p> <p>6. Functionalized carbon material-based electrochemical sensors for day-to-day applications</p> <p><b>Section D -- Noble metals, non-noble metal oxides and non-carbon-based electrochemical sensors</b></p> <p>7. Noble metals and nonnoble metal oxides based electrochemical sensors</p> <p><b>Section E -- Functionalized nanomaterial-based electrochemical based sensors for environmental applications</b></p> <p>8. Functionalized nanomaterial-based environmental sensors: An overview</p> <p>9. Advantages and limitations of functionalized nanomaterials based electrochemical sensors environmental monitoring</p> <p><b>Section F -- Functionalized nanomaterial-based electrochemical sensors technology for food and beverages applications</b></p> <p>10. Attributes of functionalized nanomaterial-based electrochemical sensors for food and beverage analysis</p> <p>11. The use of FNMs-based electrochemical sensors in the food and beverage industry</p> <p>12. Trends in functionalized NMs-based electrochemical sensors in the food and beverage industry</p> <p><b>Section G - Functionalized nanomaterial-based electrochemical sensors for point-of-care applications</b></p> <p>13. Functionalized nanomaterial-based medical sensors for point-of-care applications: An overview</p> <p>14. Functionalized nanomaterial-based electrochemical sensors for point-of-care devices</p> <p>15. Current trends of functionalized nanomaterial-based sensors in point-of-care diagnosis</p> <p><b>Section H -- Health, safety, and regulations issues of functionalized nanomaterials</b></p> <p>16. Current status of environmental, health, and safety issues of functionalized nanomaterials</p> <p>17. Functionalized metal and metal oxide nanomaterial-based electrochemical sensors</p> <p>18. Functionalized nanomaterials and workplace health and safety</p> <p>19. Layer-by-layer nanostructured films for electrochemical sensors fabrication</p> <p><b>Section I - Economics and commercialization of functionalized nanomaterial-based electrochemical sensors</b></p> <p>20. Fabrication of functionalized nanomaterial-based electrochemical sensors' platforms</p> <p>21. Advantages and limitations of functionalized graphene-based electrochemical sensors for environmental monitoring</p> <p>22. TiO2 nanotube arrays grafted with metals with enhanced electroactivity for electrochemical sensors and devices</p> <p><b>Section J - Future of functionalized nanomaterial-based electrochemical sensors</b></p> <p>23. Functionalized carbon nanomaterial-based electrochemical sensors: Quick look on the future of fitness</p>
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<P><b>Section A -- Modern perspective in electrochemical-based sensors: Functionalized nanomaterials (FNMs)</b></p> <p>1. Functionalized nanomaterial-based electrochemical sensors: A sensitive sensor platform</p> <p>2. Recent progress in the graphene functionalized nanomaterial-based electrochemical sensors</p> <p><b>Section B -- Fabrication of functionalized nanomaterial-based electrochemical sensors platforms</b></p> <p>3. Application of hybrid nanomaterials for development of electrochemical sensors</p> <p>4. Biofunctionalization of functionalized nanomaterials for electrochemical sensors</p> <p><b>Section C -- Functionalized carbon nanomaterial-based electrochemical sensors</b></p> <p>5. Functionalized carbon nanomaterials in electrochemical detection</p> <p>6. Functionalized carbon material-based electrochemical sensors for day-to-day applications</p> <p><b>Section D -- Noble metals, non-noble metal oxides and non-carbon-based electrochemical sensors</b></p> <p>7. Noble metals and nonnoble metal oxides based electrochemical sensors</p> <p><b>Section E -- Functionalized nanomaterial-based electrochemical based sensors for environmental applications</b></p> <p>8. Functionalized nanomaterial-based environmental sensors: An overview</p> <p>9. Advantages and limitations of functionalized nanomaterials based electrochemical sensors environmental monitoring</p> <p><b>Section F -- Functionalized nanomaterial-based electrochemical sensors technology for food and beverages applications</b></p> <p>10. Attributes of functionalized nanomaterial-based electrochemical sensors for food and beverage analysis</p> <p>11. The use of FNMs-based electrochemical sensors in the food and beverage industry</p> <p>12. Trends in functionalized NMs-based electrochemical sensors in the food and beverage industry</p> <p><b>Section G - Functionalized nanomaterial-based electrochemical sensors for point-of-care applications</b></p> <p>13. Functionalized nanomaterial-based medical sensors for point-of-care applications: An overview</p> <p>14. Functionalized nanomaterial-based electrochemical sensors for point-of-care devices</p> <p>15. Current trends of functionalized nanomaterial-based sensors in point-of-care diagnosis</p> <p><b>Section H -- Health, safety, and regulations issues of functionalized nanomaterials</b></p> <p>16. Current status of environmental, health, and safety issues of functionalized nanomaterials</p> <p>17. Functionalized metal and metal oxide nanomaterial-based electrochemical sensors</p> <p>18. Functionalized nanomaterials and workplace health and safety</p> <p>19. Layer-by-layer nanostructured films for electrochemical sensors fabrication</p> <p><b>Section I - Economics and commercialization of functionalized nanomaterial-based electrochemical sensors</b></p> <p>20. Fabrication of functionalized nanomaterial-based electrochemical sensors' platforms</p> <p>21. Advantages and limitations of functionalized graphene-based electrochemical sensors for environmental monitoring</p> <p>22. TiO2 nanotube arrays grafted with metals with enhanced electroactivity for electrochemical sensors and devices</p> <p><b>Section J - Future of functionalized nanomaterial-based electrochemical sensors</b></p> <p>23. Functionalized carbon nanomaterial-based electrochemical sensors: Quick look on the future of fitness</p>

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