Ultra-thin crystalline silicon is an exciting material for next-generation bioelectronics, transforming rigid silicon into flexible nanomembranes while preserving superior electrical performance and ...

Researchers at Incheon National University are addressing this challenge by presenting a comprehensive roadmap for ultra thin crystalline silicon based ...

FREDERICK, MD - (NewMediaWire) - May 21, 2024 - BioElectronics Corporation (https://www.bielcorp.com/ OTC: BIEL a developer of medical technology products, today ...

A recent study published in Nature Electronics 10.1038/s41928-023-01091-y discusses stretchable graphene–hydrogel interfaces for wearable and implantable bioelectronics. Stretchable and conductive ...

A model of the a-Heal wearable device. As a wound heals, it goes through several stages: clotting to stop bleeding, immune system response, scabbing, and scarring. A wearable device called “a-Heal,” ...

These devices can be manufactured using many methods, such as printing, coating, and lamination. Flexible electronics offer several potential benefits over conventional electronic devices due to their ...

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

Engineered polymers hold promise for use in next generation technologies such as light-harvesting devices and implantable electronics that interact with the nervous system – but creating polymers with ...