A physics-based model that accounts for membrane surface folds predicts cell adhesion on nanopillar arrays with 97% accuracy, ...

Researchers optically initialized, controlled, and read out nuclear spins in a molecular material for the first time, showing ...

Researchers developed silver selenide nanoparticles into a high-performance thermoelectric material using simple, ...

Star-shaped vanadium hydroxide nanoparticles show that changing a material's shape from sheets to stars shifts its energy ...

Researchers created chain-like metamaterials with motorised hinges that can learn new shapes, forget old ones, and toggle ...

“This shows that, in relative terms, microbes in the plastisphere have the potential to produce more biomass than the ...

At the center of the galaxy Markarian 501, there appears to be not just one supermassive black hole, but two. Radio observations over several years suggest that the duo could merge in as short as 100 ...

Researchers created a coil instrument that can control magnetic microrobots without continuous visual tracking, unlocking new possibilities for biomedical and other applications.

Researchers developed a visible-light-driven method using bismuthene as a photocatalyst to produce porous semiconducting polymers without metal catalysts under ambient conditions.

Parabolic flight tests reveal that gravity had been masking nearly all of graphene aerogel's light-driven propulsive ...

Living fungi weave conductive nanoparticles into their own growing networks, amplifying bioelectric signals 9-fold and ...

Engineers use laser patterning and iron-oxide ink to control graphene growth on polymers, creating flexible microelectrodes that detect dopamine and serotonin.