Rare earth elements and critical minerals, such as cobalt, are important for a variety of energy technologies and advanced manufacturing. Due to their high demand and limited availability, scientists are working to find new ways to recover these materials from unconventional sources.
Scientists at Ames National Laboratory, in collaboration with Indranil Das's group at the Saha Institute of Nuclear Physics (India), have found a surprising electronic feature in transitional metal-based compounds that could pave the way for a new class of spintronic materials for computing and memory technologies.
For scientists to access and control inorganic materials' unique properties, they need to be able to control these materials' three-dimensional (3D) nanoarchitectures. Scientists can use DNA to guide nanoparticles to assemble into larger structures.
Researchers have uncovered an interface layer that may affect the performance of certain superconducting qubits.
With Omni and Apex, Citrine empowers scientists to leverage AI for faster, data-driven materials development, enhancing competitiveness and innovation.
Weyl fermions are unusual particles. They are like electrons but don't have any mass. Weyl fermions move very fast and possess chirality. Chirality means that their spin points either in the same direction as the particle's motion (right-handed) or in the opposite direction (left-handed).
Researchers are trying to design fuel targets that perform under the extreme conditions of a fusion reaction chamber, where temperatures exceed those of our Sun and pressures rival Jupiter's core.
New technology recreates the conditions these materials would have to withstand when flying at five to seven times the speed of sound.
SLAC and Stanford scientists uncovered a quantum spin liquid, a state of matter that may have applications for quantum information. The blue-green lab-grown crystals look like solid rocks, but their atomic states are constantly changing.
By weaving magnet-responsive fibers into fabric, scientists have created textiles that move, flex, and feel, bringing wearable robotics a step closer to reality.
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