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Roadmaps for All Atoms in Biochemical Reactions
How atoms move in biochemical reactions - a fast and accurate method to model all the atoms.
How atoms move in biochemical reactions - a fast and accurate method to model all the atoms.
New research advances in the modeling of the critical “pedestal” region of tokamak plasmas.
New design significantly increases the lifetime and reduces the platinum content in electrocatalysts needed for advanced fuel cells for automotive applications.
Squeezing creates new class of material built from clusters of carbon atoms.
New microscopy method opens the door to understanding atomic-scale variations in chemistry and improved materials performance in solid oxide fuel cells.
A microbe able to produce hydrogen without typical poisoning by oxygen production.
Arctic clouds, major controllers of the radiative budget, are now better represented in climate models.
Nanoscale features in rocks enable more carbon dioxide to be trapped as a solid carbonate material underground.
High-efficiency compound semiconductor solar cells can now be printed on flexible, plastics.
High yield production of Actinium-225 and Radium-223 achieved by high energy proton bombardment of natural thorium targets.
Researchers reveal that microorganisms are responsible for transforming mercury into methylmercury, a highly toxic form of mercury, in streams.
Researchers use NERSC to Create Carbon Dioxide-Separating Polymer.