A stretchy, conductive type of plastic could help power the next generation of implantable biomedical devices, like longer-lasting pacemakers or glucose monitors, according to Enrique Gomez, professor ...

BERKELEY, CA – The logic and memory functions of future electronic devices could shrink dramatically – to one or two nanometers (billionths of a meter) instead of the many tens of nanometers that ...

THOSE teachers of physics who are considering the desirability and practicability of introducing into their more advanced courses of laboratory work some experiments on the discharge of electricity ...

A group of researchers from Nanyang Technological University in Singapore and MIT in the US, among others, has discovered something interesting about diamonds. The team has discovered that diamond ...

A newly discovered silicone variant is a semiconductor, University of Michigan researchers have discovered—upending assumptions that the material class is exclusively insulating. "The material opens ...

Among the enduring challenges of storing energy—for wind or solar farms, or backup storage for the energy grid or data ...

Warm dense matter is a state of matter that forms at extreme temperatures and pressures, like those found at the center of most stars and many planets, including Earth. It also plays a role in the ...

Proteins can conduct electrons efficiently over tens of nanometers when contact resistance is removed, revealing their potential as functional components in solid-state bioelectronic devices.

Enzymes are critical molecules that act as catalysts for many crucial reactions in a variety of cellular pathways. New work by researcher Stuart Lindsay and his team has identified a function of ...

Traditional physical-based models have generally been used to model the resistive-switching behavior of resistive-switching memory (RSM). Recently, vacancy-based conduction-filament (CF) growth models ...