Magnesium ions move very fast to enable a new class of battery materials.
Researchers bring extreme conditions to a supercomputer and discover new insights about our solar system and beyond.
Supercomputer simulations predict how E. coli adapts to environmental stresses.
Toolkit lets scientists detect extreme weather in climate simulations far faster than before.
Americium(III) is selectively and efficiently separated from europium(III) by an extractant in an ionic liquid.
Single sheets made of pentagons are proven to exist and uniquely combine promising electronic properties and air stability.
The CUORE experiment set the tightest limits yet on the rare decay of tellurium-130, providing insights into the nature of neutrinos.
Tiny cages can trap and release inert argon gas atoms, allowing their further study and providing a new way to capture rare gases.
Defect-enhanced transport and complex phase growth are changing design rules for lithium-ion batteries.
Simulations discovered the first molecule with three extra electrons and extraordinary stability.
The magnetic noise caused by adsorbed oxygen molecules is “eating at” the phase stability of quantum bits, mitigating the noise is vital for future quantum computers.
Gravitational wave observations combined with optical and gamma-ray data confirm earlier predictions, offer insights into how the galaxy produces lead, mercury, and other elements.
