The shape of tiny silver seeds made of fewer than 200 atoms depends on their precise size and temperature and defines the shape of the final nanoparticle.

“Our method doesn’t just destroy these hazardous chemicals; it turns waste into something of value,” Tour said. “By upcycling ...

A new photodetector design combines metal-organic frameworks and MXene materials to overcome silicons performance limits, ...

Physicists used quantum tools to reveal that electrons in strange metals become highly entangled at a tipping point, offering ...

Applying a magnetic field to the viruses during self-assembly reduces the amount of twisting between neighboring viruses, ...

Artificial neurons modeled on biology learn independently, self-organizing and adapting based on information from their local ...

Researchers develop a nickel catalyst that converts carbon dioxide to carbon monoxide with 99% selectivity by precisely ...

Researchers demonstrate that a single transistor can mimic neural and synaptic behaviors, bringing brain-inspired computing ...

Researchers have developed a tiny magnetic robot that can take 3D scans from deep within the body and could revolutionize ...

Artificial cells using riboswitch-gene fusion in liposomes produce fluorescent proteins when detecting specific targets.

The Portela Lab’s motto is “architected mechanics and materials across scales.” The Perspective aims to bridge the gap ...