These pathways involve molecular shape recognition as the basis ... future will be charted by non-natural oxidative carbon-nitrogen bond–forming protocols. Though synthetic catalysts do not ...

New research suggests “microlightning” exchanges among water droplets in Earth’s early atmosphere may have sparked the ...

The nitrogen molecule is composed of two nitrogen atoms joined by a triple covalent bond, thus making the molecule highly inert and nonreactive. Nitrogenase catalyzes the breaking of this bond and ...

A nitrogen molecule is made up of two nitrogen atoms joined together. Nitrogen atoms can form three covalent bonds, so a triple bond forms between them. The structure of nitrogen is N≡N ...

These bonds are essential in forming fundamental molecular structures, such as carbon monoxide (CO), which is a toxic, ...

Both methods break carbon-carbon double bonds and install carbon-nitrogen bonds, and both accept a broad collection of starting materials, including natural products, but they work differently and ...

Boron, carbon, nitrogen and oxygen ... has succeeded for the first time in synthesizing a molecule with a boron-carbon triple ...

Skoltech researchers have theoretically investigated the wide range of molecules that oxygen and carbon atoms can form in ...

Boron, carbon, nitrogen and oxygen ... has succeeded for the first time in synthesizing a molecule with a boron-carbon triple bond, a so-called boryne, which exists as an orange solid at room ...