F. C. Krebs, S. A. Gevorgyan, and J. Alstrup, «A roll - to - roll process to
flexible polymer solar cells: model studies, manufacture and operational stability studies,» J. Mater.
Not exact matches
The PTMA is in a class of electrically active
polymers that could bring inexpensive transparent
solar cells; antistatic and antiglare coatings for cellphone displays; antistatic coverings for aircraft to protect against lightning strikes;
flexible flash drives; and thermoelectric devices, which generate electricity from heat.
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.
The creation of
polymers that can shift their shape when exposed to different temperatures could open up a world of amazing applications from drug delivery devices that only release medication when the wearer has a fever to
flexible, lightweight actuators that turn
solar panels to track the sun.