The Universe as we never knew it… OR How to make your own ... The Alkali metals all behave similarly because they all have only one electron in their valence shell, and that single electron is in an ...

A traditional “single bond” is actually two electrons—one from each atom. This is one electron. The fragile bond required outside-the-box thinking, with a complex molecule acting as a shell.

Until now, known bonds of this type required two, four, or six electrons. A covalent bond utilizing just one electron was ...

Patience and complexity are the hallmarks of fundamental scientific research. It takes time to do what we do at the ...

The conversion of atmospheric nitrogen, N 2, to more valuable compounds is a challenge that has confronted chemists for over a century. Molecules containing nitrogen atoms are the cornerstone of ...

So, after the laser pulse, one electron flies away and one remains with the atom with unknown energy. "We can show that these two electrons are now quantum entangled," says Burgdörfer.

"If I jiggle one electron, the other electron 'senses' this ... help him determine if enough exotic matter could exist in the universe to support the possibility of a wormhole.

Antimatter might sound like something out of science fiction, but at the CERN Antiproton Decelerator (AD), scientists produce ...

The picture shows a close-up of one carbon atom. A hydrogen atom has one proton as the nucleus and one electron in the region outside the nucleus. The electron and proton are attracted to each other.