Watching Catalysts Evolve in 3-D
Scientists reveal structural, chemical changes as nickel-cobalt particles donate electrons, vital for making better batteries, fuel cells.
Scientists reveal structural, chemical changes as nickel-cobalt particles donate electrons, vital for making better batteries, fuel cells.
Scientists combine biology, nanotechnology into composites that light up upon chemical stimulation.
Scientists create widely controllable ultrathin optical components that allow virtual objects to be projected in real environments.
New materials could turn water into the fuel of the future.
Confined within tiny carbon nanotubes, extremely cold water molecules line up in a highly ordered chain.
Scientists design outstanding catalysts by controlling the composition and shape of these tiny plate-like structures on the nanoscale.
Scientists set record resolution for patterning materials at sizes as small as a single nanometer using microscope-based lithography.
Scientists invent a new approach to creating ordered patterns of nitrogen-vacancy centers in diamond, a promising approach to storing and computing quantum data.
Antibody’s molecular structure reveals how it recognizes the virus.
More atomic bonds is the key for performance in a newly discovered family of cage-structured compounds.
Researchers create materials with controllable electrical and magnetic properties, even at room temperature.
Molecular Foundry researchers help shed light on barrier to optimal performance.