In this interview, AZoM speaks to Professor Jun Chen about his latest research into bioelectronics, and how he has managed to develop a human-powered bioelectronic that converts human movement into ...

(Nanowerk Spotlight) The demand for materials that combine high conductivity with flexibility has grown sharply, particularly in fields like bioelectronics and wearable technology. Traditional ...

Liquid metal embedded with dormant bacterial spores forms a living conductor that heals itself, resists oxidation, and boosts conductivity when the microbes awaken. (Nanowerk Spotlight) The idea of a ...

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 ...

"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 ...

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

Today, foldable phones are ubiquitous. Now, using models that predict how well a flexible electronic device will conform to spherical surfaces, engineers could usher in a new era in which these bendy ...

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 ...

If you weren't paying attention to what's been done with nanotechnology in the next decade, some of what we've heard at recent events is raising eyebrows in a big way. It’s not even subtle: the use of ...

BioElectronics (BIEL) announces that Sree Koneru, PhD, will join its Board of Directors, effective December 3, 2024. Upon Dr. Koneru’s appointment, the Board will consist of three members, including ...