Purpose
Flexible and stretchable electronics are desired so that sensing, computation and communication can be seemlessly integrated into clothing, onto the skin or even within the body. A major challenge has been the creation of printed circuit boards that are truly compliant. Recent published work has gone well beyond polyimide flex pcb technology, but depends on relatively high cost processes. In this market assessment we propose to explore the prospects for and impact of commercialization of a technology that uses low cost materials and existing fabrication tools to create flexible and stretchable printed circuit boards._x000D_
Madden, John (The University of British Columbia) × Natural Sciences and Engineering Research Council of Canada
1 grants totalling $15.0K
Idea to Innovation
68 grants totalling $2.1M
Related Grants
| Recipient | Amount | Program |
|---|---|---|
| Reznik, Alla (Lakehead University) | $320.0K | Idea to Innovation |
| Zhang, Yun (University of New Brunswick)|Zhang, Yun (Université du Nouveau-Brunswick) | $125.0K | Idea to Innovation |
| Lundgren, Rylan (University of Alberta) | $125.0K | Idea to Innovation |
| Vallée, Réal (Université Laval) | $125.0K | Idea to Innovation |
| Mirabbasi, Shahriar (The University of British Columbia) | $125.0K | Idea to Innovation |