The conversion of carbon dioxide (CO₂) into carbon monoxide (CO), an industrial feedstock, has attracted significant ...

Carbon forms the graphite in pencils, the diamonds in jewelry and the molecules that make up every living thing. But under ...

Researchers use supercomputers and artificial intelligence to predict how carbon transforms under extreme heat and pressure, paving the way for revolutionary materials.

A copper-nickel dual-atom material reported in Nature Communications converts carbon dioxide into carbon monoxide at high temperatures with near-perfect selectivity, while resisting the structural ...

Carbon is everywhere. It forms the graphite in pencils, the diamonds in jewelry and the molecules that make up every living thing. Under extreme conditions -- like the heat and pressure of intense ...

Researchers have developed a series of techniques to build carbon nanoribbons atom by atom, engineering their electronic properties from the ground up rather than carving them from bulk material.

The first feature by Hasan Hadi, set in 1990, depicts the agonies of war and dictatorship as experienced by a schoolgirl in ...

Recycling bin filled with plastic bottles emphasizes waste management and environmental awareness. Image in public domain.

Common anatomies of disappointing men. Behold, I have returned from a hike. Follow @newyorkercartoons on Instagram and sign ...

Diastereomers are molecules with identical structures that are not mirror images of each other, described as anti or syn for molecules without rings. Researchers at the University of Osaka developed a ...

A newly isolated three-atom aluminum ring reveals unexpected chemistry that could help replace costly metals used in ...

A single flat metalens now handles both excitation and fluorescence collection for diamond quantum sensors, enabling nanoscale sensing in spaces too tight for conventional optics.