Where diamond has a regular crystal structure, graphene (or at least the Platonic ideal of graphene) is a flat, single-atom-thick sheet of six-sided carbon rings. The hexagonal rings of six carbon ...

Boron, carbon, nitrogen and oxygen: these four elements can form chemical triple bonds with each other due to their similar ...

German chemists have created the first-ever boron-carbon triple bond which opens new possibilities for molecular innovation.

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

Researchers have synthesised a triple bond between carbon and boron for the first time. This discovery could help chemists better understand chemical bonds and inspire other researchers to synthesise ...

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 ...

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

Dr. Dahee Park’s research team from the Nano Materials Research Division at the Korea Institute of Materials Science (KIMS), has collaborated with Professor Jeong-Young Park’s team from the Department ...

KIMS and KAIST have developed a catalyst synthesis process and precision control technology to optimize carbon dioxide ...

For instance, carbon-derived materials like graphene are ... Like graphene, MAC is also a 2D or single atom-thick material. But unlike graphene where atoms are arranged in an ordered (crystalline ...