In a recent study, the scientists found that the crystals formed in microgravity could be found in better quality than on ...

Clathrates are characterized by a complex cage structure that provides space for guest ions too. Now a team has investigated the suitability of clathrates as catalysts for electrolytic hydrogen ...

Researchers have identified antiferromagnetism in a real icosahedral quasicrystal, reigniting interest in the quest to ...

Thanks to the crystal structure of diamonds, with carbon atoms arranged into a lattice-like structure, diamond is top of the ...

Argonne researchers have shown that they can use light to temporarily alter the crystal symmetry within lead sulfide quantum ...

A research team has successfully observed and identified the water-induced degradation mechanism of perovskite, which is a ...

The case for having a permanent base on the moon as a staging point for space exploration has been made many times over the years. Actually constructing a real lunar facility presents numerous ...

Typically, lead sulfide is expected to form a cubic crystal structure, characterized by high symmetry similar to that of table salt. In this structure, lead and sulfur atoms should arrange themselves ...

Physicists have created a new type of time crystal that may help confirm some ... Then, they created spaces inside the diamond's structure by bombarding it with powerful beams of nitrogen.

Typically, lead sulfide is expected to form a cubic crystal structure, characterized by high symmetry similar to that of table salt. In this structure, lead and sulfur atoms should arrange themselves ...

For the uniform illumination, they used semi-transparent thin-film cadmium telluride (Cd-Te), and for the non-uniform illumination, they used semitransparent crystalline silicon (c-Si), which ...