The electronics of the future can be made even smaller and more efficient by getting more memory cells to fit in less space.

Researchers from Lam Research, the University of Colorado Boulder, and Princeton Plasma Physics Laboratory (PPPL) investigated ways to speed up the cryogenic reactive ion etching process for 3D NAND ...

The electronics of the future can be made even smaller and more efficient by getting more memory cells to fit in less space. One way to achieve this is by adding the noble gas xenon when manufacturing ...

On one occasion, however, he collected the gas ... chemical fuel, thereby lowering launch cost, while increasing travel range. Whether through oxidation, coordination or ionization, xenon has ...

Adding the noble gas xenon when manufacturing digital memories ... This slows down the chemical reactions, but also often results in the material having poorer properties. By adding xenon, the ...

The gas xenon, like the other noble, or inert, gases, is known for doing very little. The class of elements, because of its molecular structure, don’t typically interact with many chemicals.

Lukas Furtenbach explains why using Xenon to help climb Everest in a week is a new tool but is really no different than familiar aids like bottled oxygen.

The amateur mountaineers will pay over $150,000 per head to climb to the roof of the planet, given over to the promises of noble gas, considered doping in athletics as it is an alternative way of incr ...

Xenon gas has previously seen use in medicine as an anaesthetic and a way to protect the brain while treating injuries to the organ. Its chemical structure allows it to easily slip through blood ...