Shrubs in the Southwest have increased their water use efficiency at some of the highest rates ever observed to cope with a decades-long megadrought.
A Rice University-led study is forcing physicists to rethink superconductivity in uranium ditelluride.
Michigan State University joined an international team to create an isotope of magnesium that’s never been seen before.
Rajan Chakrabarty's project to use TRACER field study data to chemically image atmospheric particles is one of 35 two-year projects funded by EMSL.
The team made semiconductor films that are highly light emissive superlattices, five atoms thick, of tungsten and sulfur.
Princeton University researchers discovered that microbes living in the human digestive tract can inactivate the antidiabetic drug acarbose.
A new X-ray technique developed at Cornell University offers an unprecedented look at the elaborate inner workings of batteries while they are in use.
A new way of processing rare-earth and other key metals to separate them from other materials could reduce environmental impact and cost.
The discovery shows that conventional theories for interfacial heat transfer are not complete and the inclusion of Si-Ge phonon modes are warranted.
By confirming certain light-scattering dynamics, researchers have demonstrated just how strangely light can behave when scattering from electrons.