Complex crystals that mimic metals can be achieved with a new approach to guiding nanoparticle self-assembly.
Data from the Dark Energy Survey were used to create a map of dark matter in the region of sky that contains the Eridanus supervoid and CMB Cold Spot.
A tunable, atomically thin materials platform may help researchers figure out how to create ultra-efficient lossless electronic devices.
New strategy uses electron equivalents to create the first rules for synthesizing low-symmetry colloidal crystals.
Insights into the atomistic dynamics of emerging solid-state batteries by material scientists at Duke University will help speed their evolution.
The instrument has smashed previous records for 3D galaxy surveys, yet it’s only about 10% of the way through its five-year mission.
An adjustable platform made from atomically thin materials may help figure out how to create a quantum condensate that can flow without dissipation.
Engineers show how light can be used to lower barriers that ions encounter at grain boundaries, to enhance the flow of the ions by a factor of three.
Work done by MIT physicists and colleagues will aid design of other unusual quantum materials with many potential applications.
MSU scientists have developed a gene discovery method that is helping understand how plants recover from stressful situations in their environments.