Copper atoms trapped in MXene nanochannels remove 94.9% of bisphenol A in 5 minutes by concentrating reactants and lowering ...

A redesigned low-cost catalyst shows unexpected durability while converting CO₂ into a useful energy carrier. Researchers from Yale and the University of Missouri report that catalysts made with ...

Graphene is one of the most remarkable materials ever discovered – a nearly two-dimensional sheet of carbon just one atom ...

Researchers have identified an unexpected link between atomic magnetism and carbon mobility in steel. Researchers at the ...

CNG (Compressed Natural Gas) is a natural gas stored under high pressure. It is lighter than air and ideal for vehicles due ...

Atomic-scale design of platinum catalysts significantly increases fuel cell efficiency, with a new study showcasing record ...

Ozone that protects us from the sun's harmful UV rays, when in an indoor space, reacts with oils present on skin, wall paint, ...

Real-time microscopy and AI reveal how atomic wetting controls tin oxide nanowire growth inside carbon nanotubes, uncovering ...

Professor Dallas Trinkle and colleagues have provided the first quantitative explanation for how magnetic fields slow carbon ...

NuScale Power's small modular reactors could change the way we use nuclear energy, but the stock is facing pressure this year ...

Materials scientists from The Grainger College of Engineering have provided the first quantitative explanation for a phenomenon first observed in iron in the 1970s.

What’s going on with this silent threat that can stealthily damage your body in ways that can take years to reveal themselves ...