University of Chicago researchers develop stretchable hydrogel semiconductor for bioelectronics integration.

Researchers at the University of Chicago have introduced a groundbreaking hydrogel semiconductor that enhances bioelectronics by allowing efficient integration with living tissues. This innovative material, featuring soft, stretchable properties and semiconductive functionality, aims to improve medical devices like pacemakers and drug delivery systems. It reduces immune responses and inflammation, potentially revolutionizing applications in tissue engineering and wound care.

October 24, 2024
5 Articles

Further Reading