Researchers demonstrated record-breaking resolution using electron ptychography on “conventional” transmission electron microscopes.
A new advance by Stanford engineers could lead to particle accelerators being widely available in science, medicine, and industry.
Physicists discovered the existence of a new type of particle, that fractional quantum Hall regimes are not limited to two-flux or four-flux.
This exotic quantum phenomena could prove useful as a transistor in either classical or quantum computing, acting as a gate to control voltage flow.
Materials scientists are shedding light on 2D crystals, paving the way for controlled synthesis of these materials with unprecedented precision.
University of Nevada, Reno Chemical Engineering Associate Professor David Cantu leads a DOE-supported project.
Researchers employed synchrotron small-angle X-ray scattering (SAXS) to look at collagen fibril deformation and orientation at the nanoscale.
Chloe Washabaugh, a UChicago Ph.D. student in quantum engineering, creates high-performance qubits to help expand the applications of quantum devices.
Electrical engineers determined the theoretical fundamental limit for how much electromagnetic energy a material with a given thickness can absorb.
Researchers discovered a new plant biochemistry with an unusual ability to form cyclic peptides—molecules that can bind to challenging drug targets.