A research team has taken a major step forward in the field of spintronics, a technology that uses not only the charge but ...

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 ...

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 ...

X-ray beams aren't used just by doctors to see inside your body and tell whether you have a broken bone. More powerful beams ...

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 ...

A research team has clarified the mechanism behind the generation of runaway electrons during the startup phase of a tokamak fusion reactor. The paper, "Binary Nature of Collisions Facilitates Runaway ...

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 ...

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 ...

Scientists create a biohybrid by combining E. coli with a metal-organic framework, enabling charge storage through microbial electron transfer. (Nanowerk Spotlight) Harnessing biological systems for ...

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 ...