Nanocages Trap and Separate Elusive Noble Gases
Material traps noble gases at above-freezing temperatures, a difficult and important industrial challenge.
Material traps noble gases at above-freezing temperatures, a difficult and important industrial challenge.
Researchers have developed new artificial intelligence methods to enable “autonomous experimentation.”
New one-step method creates hollow nanostructures that can carry and deliver nanoscale cargos for medicine and other applications.
New method quickly identifies atoms that are neither carbon nor hydrogen in small molecules and resolves their chemical structures in complex mixtures.
The way the model reduces information in an increasingly complex system can be applied to make biopolymers and nanostructures.
Magnesium metal anodes display improved cycling and temperature performance capabilities for rechargeable magnesium batteries.
Discovery of new boron-containing phase opens the door for resilient flexible electronics.
The two most abundant elements in the universe, hydrogen and helium, were previously thought to be impossible to measure by X-ray photoelectron spectroscopy.
Read more about X-ray Spectroscopy of Hydrogen and HeliumScientists can now measure 3-D structures of tiny particles with properties that hold promise for advanced sensors and diagnostics.
Creating nanotextured glass surfaces completely eliminates reflections of all colors of light, making the glass nearly invisible.
Scientists demonstrated that powerful acids heal certain structural defects in synthetic films.
Novel engineered polymers assemble buckyballs into columns using a conventional coating process.