Typical applications of implantable bioelectronics for healthcare toward organs/tissues with different biomechanical feature. (IMAGE) ...

Definition: Bioelectronics is an interdisciplinary field that blends biology with electronics, focusing on the development and application of electronic devices and technologies to biology and ...

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 ...

The intricacies of excitable tissues, including cardiac, nervous, and skeletal muscle systems, pose substantial challenges in creating artificial analogs that can replicate their bioelectrical, ...

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, ...

Scientists have built an artificial neuron that’s so realistic it fires, learns, and responds to chemical signals just like the real thing – a breakthrough that could transform computing, medicine, ...

Imagine a future in which Band-Aids talk to your cells, pacemakers are powered by light and your gut microbiome gets a tune-up—all thanks to tiny bioelectric devices. Sounds like sci-fi, right? Think ...

The Henry Royce Institute has published the Materials for Bioelectronics in Healthcare Strategy and Action Plan a comprehensive report that aims to help future-proof the UK’s bioelectronics for ...