Advanced manufacturing, energy, and transportation are other areas where
stretchable electronic material could have an impact.
Stretchable electronic materials would be conformable to non-planar surfaces without wrinkling and could be integrated with the moving parts of machines and the body in a way that materials exhibiting only flexibility could not be.
Not exact matches
Nanoengineering professor Darren Lipomi is developing new «molecularly
stretchable»
electronic materials for applications in energy, biomedical devices, wearable sensors and consumer electronics.
The information they gather could help improve the design and performance of organic polymers: flexible,
stretchable, biocompatible
electronic materials that could be used to make everything from printable solar cells to brain implants that restore movement to paralyzed limbs.