Researchers, health institutions and more are continually finding better ways to monitor health, stretchable electronic skin being one of the latest developments. Essentially, this thin wearable patch will be able to send information about patients back to health practitioners on a more real-time basis. This will allow them to act faster when something goes wrong or is simply not working properly.
Developed by University of Illinois scientist John Rogers, the stretchable electronic skin was created using gold electrodes and other nanometer thick wires deposited in a serpentine fashion onto thin films of silicon wafers. Rogers is also the co-founder of MC10, a start up based in Cambridge, Massachusetts that is behind the commercialization of this product.
Health-Monitoring Patches
The Stretchable Electronic Skin by MC10 Provides More Real-Time Info
Trend Themes
1. Stretchable Electronic Skin - The development of stretchable electronic skin presents disruptive innovation opportunities in the wearable technology industry, allowing for real-time health monitoring and quicker response to medical issues.
2. Real-time Health Monitoring - The trend of real-time health monitoring through wearable patches offers disruptive innovation opportunities in the healthcare industry, enabling faster and more efficient patient care.
3. Nanometer Thick Wires - The use of nanometer thick wires in the creation of stretchable electronic skin opens up disruptive innovation opportunities in the nanotechnology industry, creating new possibilities for flexible and functional electronic devices.
Industry Implications
1. Wearable Technology - The development of stretchable electronic skin for health monitoring purposes creates disruptive innovation opportunities in the wearable technology industry.
2. Healthcare - The trend of real-time health monitoring through wearable patches presents disruptive innovation opportunities in the healthcare industry, improving patient care and medical interventions.
3. Nanotechnology - The use of nanometer thick wires in the creation of stretchable electronic skin offers disruptive innovation opportunities in the nanotechnology industry, pushing the boundaries of flexible electronic devices.