A new ‘pop-up’ device developed by Professor John Rogers lets scientists map and manipulate activity in human neural ...

"Bioelectronics as a field isn't new—think cochlear implants, pacemakers and smartwatches—but we are trying to interface with biology to make the technology more like systems that would occur in ...

The first time Northwestern Engineering’s Jonathan Rivnay appeared as co-author on a published paper – a 2006 piece in the Journal of Applied Physics – bioengineering was not on his mind. That paper, ...

Researchers have 3D printed bioelectronic scaffolds that have the properties cells need to form new tissue. In addition to making gadgets and game pieces, 3D printing is being used in health care to ...

Flexible electronics have enabled the design of sensors, actuators, microfluidics and electronics on flexible, conformal and/or stretchable sublayers for wearable, implantable or ingestible ...

Ultra-thin crystalline silicon transforms rigid semiconductor wafers into flexible nanomembranes (<100 nm), retaining superior electrical performance while enabling conformal integration with dynamic ...

A team of researchers has developed a new class of biomaterial inks that mimic native characteristics of highly conductive human tissue, much like skin, which are essential for the ink to be used in ...

Science Corporation, the pioneering full-stack neural engineering company focused on restoring and extending life, and Neurosoft Bioelectronics, a neural data company utilizing ultra-soft interfaces ...

Cortical organoids, which are miniature three-dimensional models of brain tissue grown from stem cells, offer scientists a sophisticated and accurate model to better understand how neurons control ...

Wentai Liu is an electronics wizard whose work is enabling the development of devices once found only in the realm of science fiction–miniaturized electronic implants to restore vision, movement, and ...