The book, ‘3D Printed Smart Sensors and Energy Harvesting Devices: Concepts, Fabrication, and Applications’ aims to explore the state-of-the-art integration of 3D printing technology in smart sensing and energy harvesting systems. By presenting a comprehensive overview of the field, the book seeks to bridge the gap between theoretical knowledge and practical applications, serving as a valuable resource for researchers, engineers, and students. The scope encompasses the entire value chain of 3D-printing-based sensors and devices development. Practical insights into designing and fabricating smart devices are provided, particularly emphasizing integrating chemical functionalities, electrodes, and advanced circuitry. This approach showcases state-of-the-art research and identifies challenges and future opportunities, fostering innovation in this dynamic field.
Key Features:
- Reviews recent research by leveraging 3D printing in various smart sensing domains.
- A thorough introduction to 3D-printed smart sensors, energy harvesters and related devices
- Focus on applications
Jadual kandungan
Preface
Acknowledgements
Editor biography
List of contributors
1 3D printed smart sensors and energy harvesting devices: concepts, fabrication, and applications
2 Additive and subtractive manufacturing
3 3D printing materials for sensors and their commercial availability
4 CAD tools for 3D printing
5 3D-printed composite sensors: advancements, opportunities, and prospects
6 3D printing for wearable biosensing and energy storage devices
7 3D printing technology for next-generation energy harvesters
8 Cyber–physical system enabled 3D printed devices
9 Applications: smart sensors
10 Applications: energy harvesting and storage
11 3D-printing and sensor applications of geopolymers
12 4D printing: fundamentals and applications
Mengenai Pengarang
Sanket Goel is a Professor with the Department of Electrical and Electronics Engineering. Prof. Goel has published >350 scientific articles and has 60+ patents (including 12 granted) in the domains of Microfluidics, Biosensors, Nanoelectronics, Fuel Cells, Smart sensors, MEMS, Solar Energy, Wearable Devices and Cyber-Physical Systems. Prof. Goel is a Fulbright and JSPS fellow, Distinguished Lecturer of the IEEE Sensors Council and is on the editorial board of numerous journals.
Sohan Dudala completed his doctoral degree from the Department of Electrical and Electronics Engineering, BITS Pilani, Hyderabad Campus, in the field of Bio-MEMS & Microfluidics. Sohan bears wide exposure to interdisciplinary technology development with his previous work in the fields of metal oxides nanostructure coatings; microfluidic water and soil assessment systems; microfluidic cell culture; PCR diagnostic devices; and point-of-care diagnostics. His current research interests include Bio-Microfluidics, Bio-MEMS and Wireless Communication.
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