New Materials for High-Energy, Long-Life Rechargeable Batteries
Using sulfur-rich, highly ionic compounds as cathodes and electrolytes enables solid-state lithium-sulfur rechargeable batteries.
Using sulfur-rich, highly ionic compounds as cathodes and electrolytes enables solid-state lithium-sulfur rechargeable batteries.
The optimization of commercial hardware and specialized software enables cost-effective supercomputing.
Tool simplifies workflow for DNA sample preparation to finished sequence.
The discovery of the first binary magnetic quasicrystals will enable the unraveling of the fundamental relationship between the structure and magnetism in aperiodic materials.
Magnetic domains exhibit the same dynamic jamming behavior universal to granular materials, polymers, glasses and emulsions.
Proton radiography is a new tool for imaging melting and solidification of metals.
A boosted frame of reference boosts the speed of calculations.
New method enables structure determination of flexible biomolecules.
ARM data offer insights into shallow cumulus clouds over land.
Using artificial nanostructures to control the properties of light could play a prominent role in the future of computing.
Predicted materials could economically produce high-purity methane from natural gas systems and separate methane from coal mine ventilation systems.
Previously unknown role of titanium in subsurface chemistry revealed.