Biological electronic device. Image by Tim Sandle. Biological electronic device. Image by Tim Sandle. A flexible, adaptable, storable patch, combining bacteria and sensors, to interface with the body ...

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

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 MarketWatch News Department was not involved in the creation of this content. INCHEON, South Korea,, Feb. 6, 2026 /PRNewswire/ -- Ultra-thin crystalline silicon is an exciting material for ...

The Nature Index 2025 Research Leaders — previously known as Annual Tables — reveal the leading institutions and countries/territories in the natural and health sciences, according to their output in ...

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 ...

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 ...

This handout photo released by the University of Maryland School of Medicine on January 10, 2022 shows surgeons performing a transplant of a heart from a genetically ...

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

INCHEON, South Korea,, Feb. 6, 2026 /PRNewswire/ -- Ultra-thin crystalline silicon is an exciting material for next-generation bioelectronics, transforming rigid silicon into flexible nanomembranes ...