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 ...

Inhaling xenon gas reduced neuroinflammation and brain atrophy while increasing protective neuronal states in mouse models of Alzheimer's disease, found a new study. The findings were published in ...

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 ...

Xenon gas could reduce those times even further ... time in the history of mountaineering that climbers have turned to chemical enhancements to gain an edge on the highest peaks.

An inert and unreactive gas may not seem like an obvious candidate for treating Alzheimer's disease, yet a new study in mice suggests that xenon might just be the breakthrough we need. The new ...

The study found that Xenon gas inhalation suppressed neuroinflammation, reduced brain atrophy, and increased protective neuronal states in mouse models of Alzheimer's disease. A phase 1 clinical ...

Xenon gas, currently used in medicine as an anesthetic and neuroprotective agent for treating brain injuries, showed potential in protecting the brain in studies. Inhalation of xenon gas shows ...

The study found that Xenon gas inhalation suppressed neuroinflammation, reduced brain atrophy, and increased protective neuronal states in mouse models of Alzheimer's disease. Results are ...

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 ...