Serendipitously and for the first time, an international research team led by scientists at the U.S. Department of Energy's SLAC National Accelerator Laboratory formed solid binary gold hydride, a compound made exclusively of gold and hydrogen atoms.
Oak Ridge National Laboratory researchers have overcome a barrier to using a more affordable, dry process for manufacturing the lithium-ion batteries used in vehicles and electronic devices.
Chemists from the National University of Singapore (NUS) have created a novel method for converting carbon dioxide, a greenhouse gas, into lucrative liquid hydrocarbons.
Japanese researchers revealed that a novel palladium-loaded amorphous InGaZnOx (a-IGZO) catalyst converted carbon dioxide to methanol with over 91% selectivity.
More than a year ago, computational scientists at the Department of Energy's Oak Ridge National Laboratory published a study in the Journal of Chemical Theory and Computation that raised a serious question about a long-standing methodology used by researchers who conduct molecular dynamics simulations involving water.
A team of scientists has unraveled how light and a previously unknown form of certain nickel-based catalysts together unlock and preserve reactivity. This research could potentially advance the use of abundant nickel in place of more expensive palladium in industrial chemistry.
Strengthening the competitiveness of the American transportation industry relies on developing domestically produced electric vehicle batteries that enable rapid charging and long-range performance.
Scientists are developing an AI-driven database to address challenges in lithium-metal battery research, enhancing liquid electrolyte design and accessibility.
Using the now-decommissioned Summit supercomputer, researchers at the Department of Energy's Oak Ridge National Laboratory ran the largest and most accurate molecular dynamics simulations yet of the interface between water and air during a chemical reaction.
Chemists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory have designed a new way to convert abundant carbon dioxide (CO2) into formate (HCO2-), an industrial chemical used as a fuel, as an antibacterial/antifungal agent, and for making pharmaceuticals.
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