A light pulse redirects electrons in an ultrathin layered material, creating a stable new state without heat or damage and suggesting a low-energy route to faster electronics. (Nanowerk Spotlight) ...

If you ever wished electrons would just behave, this one’s for you. A team from Tohoku, Osaka, and Manchester Universities has cracked open an interesting phenomenon in the chiral helimagnet α-EuP 3: ...

Brain lesions beset with smoldering inflammation, and myeloid cells around their edges, define multiple sclerosis. This might be due, in part, to the flipping of electron flow within microglia, ...

Breakthrough in N 2 activation! This study unveils an electron catalysis strategy that directly converts N 2 into azo compounds under mild conditions—a game-changer for nitrogen fixation. By ...

Scientists made a single-molecule transistor using quantum interference to control electron flow. This new design offers high on/off ratio and stability, potentially leading to smaller, faster, and ...

Photosynthesis remains one of the fundamental biological processes that sustains life on Earth, converting light energy into chemical energy. The electron transport mechanisms underpinning this ...

A research team at Osaka University is investigating an alternative method of enhancing device performance. This method involves applying a patterned metal layer, also known as a structural ...

A bright flash of light from a FuZE (Fusion Z-pinch Experiment) plasma. Credit: Zap Energy In the nine decades since humans first produced fusion reactions, only a few fusion technologies have ...

Bromine-based flow batteries operate through the redox reaction between bromide ions and elemental bromine, offering advantages such as abundant resources, high redox potential, and good solubility.