A novel porous material capable of separating deuterium (D2) from hydrogen (H2) at a temperature of 120 K has been introduced. Notably, this temperature exceeds the liquefaction point of natural gas, ...

A novel porous material capable of separating deuterium (D2) from hydrogen (H2) at a temperature of 120 K has been introduced. Notably, this ...

A novel porous material capable of separating deuterium (D2) from hydrogen (H2) at a temperature of 120 K (-153°C) has been introduced. Notably, this ...

A novel porous material capable of separating deuterium (D2) from hydrogen (H2) at a temperature of 120 K (-153°C) has been ...

However, things are not as straightforward under extreme conditions such as temperatures close to absolute zero combined with strong magnetic fields, where strange quantum effects begin to dominate.

Before their falling out, however, they named the new element after the Latin word for violet or indigo, indicum, since its ...

Technique could help researchers probe strange properties of 2D metals — plus, five years after the pandemic, how did COVID change virology?

By incorporating gadolinium into a catalyst, its efficiency in a reaction that produces hydrogen fuel increases. This could be the boost we need to ...

Dr. Jiaming Ma holds a 3D-printed model of the team's double lattice design. Credit: RMIT University. Researchers at RMIT University have developed a groundbreaking new material inspired by the ...

Once you finish setting all the statues, you can go back to the “Garmentmaker” for your chest, as well as the achievement “Chirping Secret: Lattice of Wisdom.” ...

Whereas traditional membranes rely on hydrated nanoscale pores to transport ions, SSEs shuttle lithium ions through an anhydrous hopping mechanism within a highly ordered crystalline lattice.