Ultrathin Crystals Vibe with Infrared Light
Crystalline nanoribbons synthesized to resonate with infrared light for imaging, sensing, and signaling pass a crucial test.
Crystalline nanoribbons synthesized to resonate with infrared light for imaging, sensing, and signaling pass a crucial test.
Machine learning methods support human operators in diagnosing and fixing failing subsystems in an accelerator-driven X-ray laser.
A tungsten carbide catalyst can produce a hydrocarbon from carbon dioxide at high rates and high efficiency.
Ultrafast X-ray studies reveal the existence of Superionic Ice XIX, which could explain the unusual magnetic fields of icy giant planets.
Scientists freeze and cut a battery in half to look inside and reveal why it fails.
Understanding defects paves the way for longer lifetimes for sodium-ion batteries -- and lower energy storage costs.
Bright electron beams unlock the study of small, thin materials on ultrafast timescales.
A graphene-insulator coating enables scientists to tune the energy required to liberate electrons from semiconductors.
Scientists illuminate the quantum dynamics of electrons in highly excited molecules.
Package provides end-to-end analysis of microscopy images for accelerated materials research.
Researchers used ultrafast electron diffraction to image the structure of the pericyclic minimum, the “transition state” of electrocyclic reactions.
Researchers develop the first 2D telecommunication-compatible quantum light source, smoothing the path toward a quantum internet.