With the help of machine learning, a skin-like sensor internalizes different stimuli, allowing it to read and interpret hand movement.

With the help of machine learning, a skin-like sensor internalizes different stimuli, allowing it to read and interpret hand movement.
Exploiting defects in 2D hexagonal boron nitride to create reliable single photons, researchers have upped their quantum encryption game.
Sensors developed to respond to jaw movement can be connected wirelessly to different devices for hands-free control.
Using bilayered graphene, physicists explore the possibility that our reality is only one half of a pair of interacting worlds.
From boosterless vaccine platforms to goopy 2D inks and color-changing crystals, here are some of the most striking images collected from our journals.
Living optical fibers, nickel skeletons, and superconducting graphene — this edition of our Science in pictures series contains more incredible images selected by our editors.
The “Queen of Carbon” made her mark on solid state physics, but no less important is the impact she had as an inclusive and inspirational teacher.
New membrane inspired from bamboo allows researchers to create new 2D material for better ion transport in batteries.
Researchers recreate the somatic nervous system in robots, allowing them to convert feeling into movement under different stimuli.
Using theoretical and experimental analysis, researchers aim to better understand the novel and intriguing magnetic properties of 2D materials for the next generation of information technologies.