Sensors for Stretchable Electronics in Nanotechnology

Kaushik Pal

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English

CRC Press
07 October 2024

Nanotechnology; Biosensors; Electronic devices & materials

Series: Emerging Materials and Technologies

Sensors for Stretchable Electronics in Nanotechnology discusses the fabrication of semiconducting materials, simple and cost-effective synthesis, and unique mechanisms that enable the fabrication of fully elastic electronic devices that can tolerate high strain. It reviews specific applications that directly benefit from highly compliant electronics, including transistors, photonic devices, and sensors.

Discusses ultra-flexible electronics, highlighting its upcoming significance for the industrial-scale production of electronic goods

Outlines the role of nanomaterials in fabricating flexible and multifunctional sensors and their applications in sensor technologies

Covers graphene-based flexible and stretchable strain sensors

Details various applications including wearable electronics, chemical sensors for detecting humidity, environmental hazards, pathogens, and biological warfare agents, and biosensors for detecting vital signals

This book is a valuable resource for students, scientists, and professionals working in the research areas of sensor technologies, nanotechnology, materials science, chemistry, physics, biological and medical sciences, the healthcare industry, environmental science, and technology.

Edited by: Kaushik Pal
Imprint: CRC Press
Country of Publication: United Kingdom
Dimensions: Height: 234mm, Width: 156mm,
Weight: 312g
ISBN: 9780367642839
ISBN 10: 0367642832
Series: Emerging Materials and Technologies
Pages: 158
Publication Date: 07 October 2024
Audience: Professional and scholarly , College/higher education , Undergraduate , A / AS level
Format: Paperback
Publisher's Status: Active

Section I: 1. Introduction to Sensor Nanotechnology and Flexible Electronics. 2. Influence of Dynamic Bending Reliability of Flexible Hybrid Electronics. 3. Graphene Based Materials and Devices for Transparent Stretchable Electronics. 4. A High-contrast and Cost-effective Optical Hydrogen Sensor. Section II: 5. Advancements in Wireless Highly Stretchable Sensors for Hybrid Nanogenerator. 6. Elastomeric Substrate for Stretchable Electronics. 7. Ultra-Thin Graphene-assembly of Liquid Crystal Stretchable Active Matrix Performance of Thermal and Switchable Sensor. 8. Stretchable Capacitive Sensor for Highly Sensitive Electrochemical Sensing. 9. Fabrication of Stretchable Composite Film for Superconductor Applications. 10. Development of Intrinsically Stretchable Electronics Challenging for Bio-Integrated Device. 11. CNTs/Graphene-Assisted Flexible Thin-film Preparation for Stretchable Electronics and Superconductor. 12. Transfer of Oxide Transistors for Stretchable Electronics. Section III: 13. Highly Sensitive Long Term Durability of Wearable Biomedical Sensor. 14. Development to Realize Stretchable Soft Electronic Devices. 15. Future Promises and Aspects in Transparent Flexible Electronics and Optoelectronics.