Microbial bioelectronic sensors use living bacteria that can create an electrical signal in response to the presence of a target substance, or analyte. These types of sensors offer many advantages ...

POSTECH and Pukyong National University researchers develop a conductive bioglue that seamlessly integrates tissues and electronic devices in the fluid‑filled body.

Researchers at the University of Chicago and the University of California San Diego have made an exciting breakthrough in the battle against bacterial infections. The Bozhi Tian (UChicago) and Gürol ...

Living bacteria generate electrical signals in a new hydrogel sensor that can detect substances in liquids like milk.

(Nanowerk Spotlight) The seamless integration of electronic devices with living tissue remains one of the most significant challenges in bioelectronics. Traditional electronic components are rigid and ...

Northwell Health is opening its first Center for Bioelectronic Medicine at 330 Community Drive in Manhasset. With bioelectronic medicine, medical experts focus on methods to treat diseases through ...

A Carnegie Mellon University-led team has secured an award of up to $42 million from the Advanced Research Projects Agency for Health (ARPA-H) to accelerate the development of implantable, cell-based ...

Honing in on four markers for effective, patient-specific devices to combat glioblastoma.

Researchers have developed a new class of ultra-thin, flexible bioelectronic material that can seamlessly interface with living tissues. They introduced a novel device called THIN (transformable and ...

Electronic devices that can be attached to the skin or even implanted in the body will become more and more prevalent in near-future technology. Such "implantable bioelectronics" are envisaged as ...