Electricity powers our lives, including our cars, phones, computers, and more, through the movement of electrons within a ...

A light pulse redirects electrons in an ultrathin layered material, creating a stable new state without heat or damage and ...

Whether in solar cells or in the human eye: whenever certain molecules absorb light, the electrons within them shift from their ground state into a higher energy, excited state. This results in the ...

Charge transfer, or the movement of electrons, can occur either within a molecule or between two molecules. Combining the two types of charge transfer is challenging. Now, scientists have developed a ...

It is found that the reconstruction of the electronic environment and the optimization of the electromagnetic attenuation mechanism are achieved by constructing a model of metal–support interaction ...

TL;DR: Researchers at Peking University developed a silicon-free transistor using bismuth oxyselenide, offering faster electron movement and full gate coverage around the source. This design promises ...

Porphyrin complexes are renowned for their remarkable ability to mediate electron transfer processes, a feature that underpins critical functions in biological systems and offers promising ...

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 ...