IISc and Caltech researchers uncover why photosynthesis uses only one electron path, solving a long-standing mystery.

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 ...

Electrons are incredibly fast. Because of their ultrafast motions, directly observing their behavior has been challenging. Now researchers have suggested a new method to make visualizing electron ...

Electrons oscillate around the nucleus of an atom on extremely short timescales, typically completing a cycle in just a few ...

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 ...

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 ...

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 ...