A major breakthrough in organic semiconductors has been achieved, potentially transforming display technology and even future ...

By colliding spin-polarized electrons with polarized protons, EIC scientists will tease apart how the proton's spin arises from the spins and motion of its internal building blocks, quarks and gluons.

Researchers from the University of Cambridge and the Eindhoven University of Technology have developed an organic ...

Researchers have advanced a decades-old challenge in the field of organic semiconductors, opening new possibilities for the ...

This is what causes atoms to bond and what holds a molecule together. Electrons can be shared unequally in a molecule, creating a polar molecule. Opposite polar ends of molecules attract and hold one ...

Electrical injection of spin-polarized electrons into silicon has proven elusive, but is essential to enable the use of spin angular momentum as an alternative state variable in future silicon ...

spin-polarized electrons with a preferred spin direction are excited, enabling the generation of a spin-polarized current. Conversely, these rules also mean that when a spin-polarized electron ...

The idea of injecting spin-polarized electrons into organic semiconductors and controlling their properties in spintronic devices derives from an attempt to improve the efficiency of organic light ...

A test of customized organic semiconductors capable of twisting light dramatically improved the efficiency of OLED displays.