Purpose
This project is part of the development of printed wearable sweat wristband sensing system for health monitoring and early-stage disease diagnosis. The sweat wristbands will need low power consumption components to ensure truly wearable and portable, which is critical to such applications. The current driving and sensing components require high operating voltage making it impossible to run with current available batteries. One of the solutions to reduce the operation voltage of the sensing and circuit components is to leverage the electrolyte-gated organic field-effect transistors (EGFETs) which may operate at
The Governing Council of the University of Toronto × National Research Council Canada
80 grants totalling $40.4M
Collaborative Science, Technology and Innovation Program - Collaborative R&D Initiatives
1,000 grants totalling $348.9M
Related Grants
| Recipient | Amount | Program |
|---|---|---|
| University of Ottawa | $3.6M | Collaborative Science, Technology and In... |
| University of Ottawa | $3.6M | Collaborative Science, Technology and In... |
| University of Ottawa | $3.6M | Collaborative Science, Technology and In... |
| University of Ottawa | $3.6M | Collaborative Science, Technology and In... |
| The Governing Council of the University of Toronto | $3.0M | Collaborative Science, Technology and In... |