For the first time, scientists measured transition state energies, providing new insights into reactions used in transportation, industry, energy and more.
The metal-organic framework NU-1000 allows separation of toxic furanics from sugars, which is necessary for efficient ethanol production.
Scientists replace iron in muscle protein, combining the best aspects of chemical and biological catalysts for enhanced production of chemicals and fuels.
New method lets supercomputers model key details of greenhouse gases and molecules relevant to automobile combustion.
A new energy-efficient separation of rare earth elements could provide a new domestic source of critical materials.
Water molecules can organize around protons from acids, influencing how the positive charge behaves in batteries, power plants, and waste sites.
Researchers designed an extremely efficient catalytic system to remove carbon monoxide.
Evidence for a new kind of water molecule, trapped within nanotunnels inside an emerald.
Small platinum particles prove to be more catalytically active than single platinum atoms, a vital insight for designing more efficient catalysts.
Scientists seek to improve the battery by investigating the detailed interactions lithium ions experience with liquid battery electrolytes.
Combining two types of catalysts speeds conversion of carbon dioxide into an industrial feedstock.
Scientists find oxygen molecules ignore electrons in metal atoms in key reaction, providing an important detail for fuel cell design.
