Understanding and Predicting Self-Assembly
Newly discovered “design rule” brings nature-inspired nanostructures one step closer.
Newly discovered “design rule” brings nature-inspired nanostructures one step closer.
Cutting-edge simulations provide an explanation for a mystery over half a century old.
Molecular movements triggered by light redirect the flow of energy through photosynthetic cells to protect them from sun damage.
Hollow shape-selected platinum nanocages represent a new class of highly active catalysts.
Sub-nanometer molecular asymmetry between the two different faces of nanoparticle membranes formed at air-water interface is revealed.
The “neutron skin” of the nucleus of a calcium-48 atom is much thinner than thought. An international team of nuclear physicists led by Dr. Gaute Hagen of the Department of Energy's Oak Ridge National Laboratory used the Titan supercomputer to compute the neutron distribution and related observables of the atomic nucleus of calcium-48.
Read more about What Is the Size of the Atomic Nucleus?Major milestone in molecular electronics scored by Molecular Foundry and Columbia University team.
Researchers have attained superlubricity, the near absence of friction, at a carbon-silica interface using nanodiamonds wrapped in graphene flakes.
Experimental turbulence model matches the magnetic field amplification seen within the remains of a supernova.
Spectroscopy combined with theory and computation determines the interaction between carbon dioxide and water.
Realistic computational view of how atom stretches informs microscopic description of nuclear energy production.
Study changes perception on how acids behave in water.
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