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Full Description
Evidently, electrochemical sensing has revolutionized the electroanalytical detections in the world. Since the 19th century, a huge amount of growth has been visible on various fronts, such as biosensors, energy devices, semiconductor devices, communication, embedded systems, sensors etc. However, the major research gap lies in the fact that most of the reported literatures are bulk systems; hence there are limitations for practical applications.
Research in these domains has been carried out by both academia and industry, whereby academics is the backbone whose intellectual outputs have been widely adopted by the industry and implemented for consumers at large. In order to impart portability to the electrochemical sensors for point-of-care application, the collaboration of electrochemistry, microfluidics, electronics and communication as an interdisciplinary forum is crucial. The miniaturization, automation, IoT enabling and integration are the requirements for building the mentioned research gap. The conversion of electrochemical sensing theoretical concepts to practical applications in real time via miniaturization and integration of microfluidics will enhance this domain. In this context, of lately, several research groups have developed miniaturized microdevices as electrochemical-sensing platforms. This has led to a demand of offering a reference book as a guideline for the PhD programs in electrochemistry, MEMS, electronics and communication. Undoubtedly, this will have a huge impact for R&D in industries, public-funded research institutes and academic institutions.
The book will provide a single forum to understand the current research trends and future perspectives of various electrochemical sensors and their integration in microfluidic devices, automation and point-of-care testing. For students, the book will become a motivation for them to explore these areas for their career standpoints. For the professionals, the book will become a thought-provoking stage to manoeuvre the next-generation devices/processes for commercialization.
Contents
1. Fundamentals of Microfluidics- History, and Challenges. 2. State of the Art Fabrication of Micro-electrochemical Devices. 3. Nanomaterial-based Microfluidic Electrochemical Devices. 4. Emerging Trends in Microfluidic Electrochemical Biosensors. 5. Advances in Microfluidic Immunosensors. 6. Recent Developments in Microfluidic Electrochemical Sensors for
Environmental Pollutants. 7. Microfluidic Electrochemical Sensors for Supercapacitor Application. 8. Microfluidic Electrochemical Sensors for Fuel Cell/Biofuel Cell Application. 9. Microfluidic Electrochemical Sensors for Forensic Investigations. 10. Microfluidic Electrochemical Sensors for Food Quality and Nutrition Assessment. 11. Paper-Based Microfluidic Electrochemical Sensors. 12. Advances in Microfluidic Point of Care Diagnostic Electrochemical Sensors. 13. Trends in Polymer-based Microfluidic Electrochemical Devices. 14. Aspects of Recent Development in Enzymatic Microfluidic Electrochemical Sensors. 15. Microfluidics Electrochemical Sensors and Internet of Things Enabling.
