Scientists have used deep learning to design new proteins that bind to complexes involving other small molecules like ...

Paper-thin optical lenses simple enough to mass produce like microchips could enable a new generation of compact optical ...

Just like the proteins in our muscles, which convert chemical energy into power to allow us to perform daily tasks, these ...

The resulting oscillations exert a force on the electrons in graphene. This generates a circular electron density wave that ...

An interdisciplinary research group is working on constructing logic circuits through the targeted arrangement of individual ...

The innovative platform leverages light to perform calculations at significantly higher speeds and with much greater ...

PI's new F-141 photonics alignment system provides high throughput with motion in 4 and 6 degrees of freedom for industrial ...

DeSci reimagines scientific research through blockchain, putting control in researchers' hands via decentralized funding, ...

Chemists succeeded in controlling the passage of halide ions by deliberately introducing defects into a two-layer ...

Researchers describe how quasiparticles called polarons behave in tellurene, a nanomaterial first synthesized in 2017 that is ...

C by controlling its nanoscale structure, enabling flexible electronics and sensors for extreme cold environments.

Researchers found that boron-doped diamonds exhibit plasmons, allowing electric fields to be controlled and enhanced on a nanometer scale.