A team of chemists at the University of Cambridge has developed a powerful new method for adding single carbon atoms to ...

A team of chemists at the University of Cambridge has developed a powerful new method for adding single carbon atoms to molecules more easily ...

Using an X-ray laser, the method revealed atomic motions in a simple catalyst, opening the door to study more complex ...

When targeted by a high-energy laser that generates pressures over one million atmospheres, carbon samples melt at around ...

Ever since graphene’s discovery 2 decades ago, the iconic 1-atom-thick sheet of carbon has inspired researchers to create a ...

Using SLAC's X-ray laser, the method revealed atomic motions in a simple catalyst, opening the door to study more complex ...

A recent study presents a practical approach to addressing both industrial waste and carbon emissions through material innovation. Researchers have developed a gas diffusion electrode (GDE) by ...

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 ...

Organic chemistry is possible due to the unique properties of carbon, which allow it to form a vast range of stable bonds and structures. Carbon has four valence electrons, enabling it to form four ...

In this work, we report on method development and mechanical structure–property analysis of nanostructured networks of porous carbon using an all-atom molecular dynamics simulation approach. The goal ...

Each “single” bond has two electrons—one from each atom. To continue the line ... of hexaphenylethane—a theorized carbon compound—to help structure their experiment.