Description
Flexible electronics, or flex circuits, involve the construction of electrical circuits using flexible plastic substrates, such as polyimide, PEEK, or transparent conductive polyester sheets. Flexible electronic assemblies are made using a variety of manufacturing techniques, including printing, laminating, and deposition, which enables the circuit board to bend or take on a desired shape. They allow the user to create extremely flexible, light-weight, and thin electronic components such as batteries, screens, and sensors. Green Flexible Electronics for Sustainable Healthcare discusses incorporating flexible and printed electronics in the field of sustainable healthcare. It details how to utilise natural materials in the design, fabrication and application of flexible electronic-based wearables and sensors. It also offers a detailed analysis of the effects and challenges of integrating flexible electronics within the healthcare ecosystem. Green Flexible Electronics for Sustainable Healthcare considers the implications of the advances in flexible electronics with regards data privacy, security and scalability.- Explores the role of advanced technologies, such as nanomaterials and artificial intelligence, in the creation of flexible and printed electronics- Analyses the design of flexible electronics-based wearables and sensors and their application for healthcare- Addresses the issues of data privacy, security and scalability when utilising flexible electronics within healthcare ecosystems
Table of Contents
1. A Run-through of Flexible Electronics: Challenges and Opportunities2. Streamlining Green Flexible Electronics: Natural Materials, Fabrication and Applications3. Green Flexible Electronics from the Perspective of Internet of Things: Solutions for Sustainability4. Flexible Electronics in the era of Artificial Intelligence towards Future Implanted Body Sensor Networks5. Healthcare Monitoring: Inferences, Effects and Challenges in Developing Wearable Sensor Devices6. Principles of Sustainable Healthcare: Protect and Improve Public Health7. A Deep Dive into Green Flexible Electronics for Sustainable Healthcare Applications8. Cutting-edge Technology: A New Standard for Flexibility in Electronics9. Nanomaterials-based Flexible Wireless System to Monitor and Record Bio-signals from Different Human motions10. Stretchable Sensors: Sensing Mechanism, Fabrication Strategies and Features for Wearable Health Monitoring11. Flexible Bioelectronics with Dynamic Interfaces in Clinical Monitoring, Stimulation and Characterization12. Flexible and Printed Electronics: Enabling an Efficient Remote Health Monitoring13. Overcoming Challenges of Medical Data Privacy, Security, and Scalability for Precise Health Monitoring14. Cardiovascular Health Monitoring through Integration with Flexible Electronics - A Case Study Approach15. Recording Physical and Physiological Parameters: Exploring Wearable Flexible Electronic Skin16. Case Study on In Vitro Diagnostics: A Trend to Decentralize Healthcare through Low-cost Printed Electronics
