Emulating the edge of chaos of axons enables a metal wire to overcome its resistance without cooling, thereby amplifying signals flowing inside of it.
Neutron experiments revealed microscopic details about a special 3D-printed superalloy that could potentially reduce component costs.
In a breakthrough for industrial manufacturing, scientists reproduced one of the world’s toughest materials using 3D printing.
Layers of a surface-conducting material, sandwiched between layers of a magnetic insulator, could lead to more powerful, energy-efficient electronics.
Researchers used neutrons to study porous metal materials called MOFs that trap toxic gases that are harmful to the environment and human health.
Ultrafast X-ray imaging created with new technology offers insights into improving the energy efficiency of combustion engines.
Electron transfer between atomically thin materials triggers the ultrafast release of heat.
Scientists chart a path to sub-femtosecond hard X-ray Free-Electron-Laser pulses powered by compact plasma-based accelerators.
High-surface area silicon improves light-driven reactions of carbon dioxide.
Scientists learn how to manipulate quantum properties in graphene to create resistance-free, electricity channels for loss-free future electronics.
Synchrotron X-ray spectroscopy allows atom-level examination of iron and terbium atoms.
Two types of superconductivity compete at the edge between a topological semimetal and a conventional metal, causing the electrons to switch behavior erratically.
