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Full Description
This book reviews the fundamentals of electrochemical sensors, the preparation of electrodes, potential materials for sensing applications, and different analytical methods used for electrochemical sensing applications. It further covers the designing of various electrodes and electrode materials, instruments, sensing mechanisms, advanced nanomaterials for sensing, and so forth. The scalability and commercialization of electrochemical sensors and the challenges and prospects of electrochemical sensors are also described.
Key Features:
Provides an overview of the advances in the application of nanomaterials in sensing
Covers basic fabrication techniques of electrodes as an important part of electrochemical sensors and analysis
Reviews the use and analysis of different types of nanomaterials and nanocomposites used for fabrication of working electrodes
Emphasizes carbon-based nanomaterials, 2D nanomaterials, and advanced nanocomposites comprising various matrix systems such as conducting polymers, and
Explores electron transfer, redox behaviour, fabrication techniques, data interpretation, and advanced nanomaterials as working electrode materials
This book is aimed at researchers and graduate students in nanomaterials, electrochemistry, chemical engineering, and materials science.
Contents
1.Introduction to Electrochemical Sensors 2. Contemporary Techniques of Fabrication of Electrochemical Sensors 3. Analytical Methods for Electrochemical Sensors 4. Carbon-Based Materials for Electrochemical Sensing 5. Metal Oxide Nanomaterials Based Materials For Electrochemical Sensing 6. Metal Nanoparticles for Electrochemical Sensing 7. Two-dimensional Materials for Electrochemical Sensing 8. Recent Advancement in Electrochemical Biosensors: The Role of Conducting Polymer Nanohybrid Materials 9. Emerging Materials for Gas Sensing 10. Mycotoxins as Food Contaminants and Their Detection Methods 11.Reviewing the Prospects of Machine Learning for High‑Performance Electrochemical Sensors 12. Nanomaterials for Electrochemical Sensing of Explosive Substances 13. Fabrication of MOF‑Based Electrochemical Sensor 14. Porphyrin‑Functionalized Hybrid Materials for Biosensing Applications 15. Graphene‑Based Metamaterial Absorbers for Electrochemical Sensing 16. Electrochemical Biosensors Based on Nanomaterial Functionality 17. Influence of Diffusion, Convection, and Reaction Time Scales on Cyclic Voltammetry Targeting Efficient Electrochemical Sensor Design 18. Advances, Opportunities, and Challenges in Development of 2‑D MXene‑Based Aptasensors for Early Cancer Detection19. Process Design of Electrochemical Sensors 20. Challenges and Future Prospects in Electrochemical Sensing
