Inspired by electric rays that generate high voltages through stacked electrocytes, researchers at UNIST have developed a ...

Abstract The growing demand for sustainable power sources in distributed electronics and wearable devices requires stable, scalable, and ...

The ion-based physical reservoir developed in this research (left) and the computational load reduction achieved in a typical benchmark test (right). A joint research team from NIMS, Tokyo University ...

As wearable electronics proliferate, the demand for flexible, safe, and high-performance power sources has never been greater. Fiber-shaped energy-storage devices (FSESDs) are particularly attractive ...

(Nanowerk Spotlight) Efforts to design computing systems that operate more like the brain have pushed engineers to rethink how information is processed, transmitted, and stored. Biological neurons are ...

Nanoionics is an emerging field that combines the principles of nanoscience and ionic transport to develop advanced materials and devices for energy storage and conversion. It focuses on the study and ...