Researchers develop biocompatible implants that adapt to the body's growth, paving the way for advanced neurological ...

Soft bioelectronics have emerged as a promising platform for personalized healthcare, offering improved compatibility with biological tissues. Among various soft materials, hydrogels stand out due ...

Scientists designed biocompatible implants using organic transistors to monitor neurological functions. Unlike rigid, silicon ...

Summarizes recent advances in hydrogel bioelectronics for personalized healthcare, focusing on mechanical, electrical, acoustic, and optogenetic coupling. Discusses the latest progress in ...

Prof. Bozhi Tian of the University of Chicago is on the frontier of bioelectronics, building living machines that can heal, ...