Engineers from United States have discovered that just single atom thick quantum materials ... during its production the material itself forms sulfur vacancies – which results in high density ...

Argonne researchers have shown that they can use light to temporarily alter the crystal symmetry within lead sulfide quantum dots. This process reduces the off-centering of lead atoms and affects the ...

To help find solutions to the planet's climate crisis, MIT Associate Professor Daniel Suess is looking to Earth's ancient ...

One of the easiest descriptors to predict was “alliaceous” (garlic), reflecting previous work (23) which suggested that this note straightforwardly correlated with the presence of sulfur in ...

Photoluminescent materials are more than just the glow-in-the-dark stars your parents glued to your bedroom ceiling as a ...

Each block represents an atom in a tiny crystal ... In this structure, lead and sulfur atoms should arrange themselves in a very ordered lattice, much like alternating red and blue Lego blocks.

Surprisingly, the biosynthesis of this simple derivative requires a minimum of four sulfur transfer reactions involving seven proteins. To identify genes required for tRNA modification ...

Each block represents an atom in a tiny crystal, known as a quantum dot ... In this structure, lead and sulfur atoms should arrange themselves in a very ordered lattice, much like alternating red and ...

Inception, a new Palo Alto-based company started by Stanford computer science professor Stefano Ermon, claims to have developed a novel AI model based on “diffusion” technology. Inception ...