Molecular electronics is the ultimate miniaturization of electronics. In this area of research, scientists have been studying the movement of electrons through individual molecules in an effort to ...

Scientists observed charge separation in a solar cell dye, driven by nuclear vibrations, not solvent effects, reshaping views on light-induced transport. (Nanowerk News) Whether in solar cells or in ...

The key to maximizing traditional or quantum computing speeds lies in our ability to understand how electrons behave in solids, and researchers have now captured electron movement in attoseconds--the ...

“Strange metal,” that rogue phenomenon of the electrical realm, just became a little less enigmatic. Identified more than 40 years ago, strange metal is a state of matter found in many quantum ...

The fluid-like movement of electrons in graphene was directly observed by physicists at the University of Wisconsin-Madison for the first time at a nanometer resolution. The findings have the ...

Have you heard of an x-ray laser before? Did you know that there is a huge x-ray laser in the heart of Silicon Valley in California that can help us discover a myriad of information about the Universe ...

Research at the University of Kansas' Ultrafast Laser Lab could lead to breakthroughs in governing electrons in semiconductors, fundamental components in most information and energy technology.

A team of scientists at the Department of Energy's SLAC National Accelerator Laboratory are developing new methods to probe the universe's minute details at extraordinary speeds. In previous research, ...

The film explains the concept of electrons and their role in electric circuits. It describes how electric current is the flow of electric charges, primarily electrons, which cannot be seen but can be ...

What Is A Single Electron Transistor? A single electron transistor (SET) is a transistor that operates on the principles of quantum mechanics and utilises the behaviour of single electrons. It differs ...

(Nanowerk News) The key to maximizing traditional or quantum computing speeds lies in our ability to understand how electrons behave in solids, and a collaboration between the University of Michigan ...