We are excited to share groundbreaking advancements in the realm of solar energy technology, particularly highlighting an emerging thinner-film solar cell: Cu2BaSn(S,Se)4. This innovative solar cell ...

Javier Sanchez-Yamagishi, a physicist who studies 2D materials at the University of California, Irvine, likens the ...

The pioneering nuclear chemist Glenn Seaborg discovered berkelium at Berkeley Lab in 1949. It was one of many achievements ...

Scientists in Germany have achieved something never seen before: creating a stable boron-carbon triple bond. While triple ...

Working with carbon-based materials offers a decisive advantage: “While individual atoms only have one spin, nanographenes make it possible to create several linked spins,” says Bae. Making several ...

Researchers from the University of Würzburg are opening up new horizons in chemistry: They present the world's first triple ...

Researchers have described a transformation of graphene in an entirely different form of carbon. The transformation preserves ...

Graphyne is a crystalline form of carbon that is distinct from both diamond and graphite. Unlike diamond, where each atom ...

The crystalline structure of glycerol was first determined ... In this model, glycerol is represented by six beads centered on the carbon and oxygen atoms. We define three united atom sites: “CT” ...

Monolayer amorphous carbon is a game-changing material that combines strength ... Credit: Gustavo Raskoksy/Rice University Like graphene, MAC is also a 2D or single atom-thick material. But unlike ...

The number of bonds a carbon atom forms with other elements in a compound determines its chemical structure and behavior. Normally, a carbon atom shares all four of its valence electrons to create ...

A new reagent has moved carbon-atom transfer out of the chemical flatlands, allowing chemists to place a single carbon atom so that it makes bonds to four different substituents. The reagent makes ...