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.
Electrons can behave as if they are a hundred times heavier than free electrons and superconducting.
A novel metal-organic framework (MOF) efficiently separates higher octane components from the low value ones, offering great potential for significant cost reduction in gasoline production.
Tool simplifies workflow for DNA sample preparation to finished sequence.
Surprisingly large effect greatly increases the probability that new neutrino experiments will be able to see the differences between matter and antimatter.
Proton radiography is a new tool for imaging melting and solidification of metals.
Magnetic domains exhibit the same dynamic jamming behavior universal to granular materials, polymers, glasses and emulsions.
Ionic liquids found to behave differently than expected.
The discovery of the first binary magnetic quasicrystals will enable the unraveling of the fundamental relationship between the structure and magnetism in aperiodic materials.
The optimization of commercial hardware and specialized software enables cost-effective supercomputing.
Project provides tools for advanced data analysis and visualization.
New two-step desalinization process improves climate model.