New research employs shutter speed analogies to validate 55-year-old theory about chemical reaction rates.
This study explores the use of modified chitosan with vinyl/silane monomers for enhanced oil recovery in acidic reservoirs, demonstrating superior performance in laboratory and field-scale evaluations.
Researchers from the Technical Institute of Physics and Chemistry of the Chinese Academy of Sciences, have uncovered the molecular mysteries underlying the alcohol content of alcoholic beverages (such as Chinese baijiu) in a study that was published in Matter.
A recent study published in Science Bulletin by Science China Press reveals that collecting data up to 1.5 ab-1 at the tauon pair production threshold in an electron-positron collider significantly increases the chances of detecting tauonium.
Although chlorine is an integral part of industrial disinfection processes, handling the chemical is dangerous. In the worst-case scenario, incorrect dosing or direct contact with chlorine can cause damage to the lungs, eyes and skin.
Sustainable aviation fuels made from renewable sources of carbon could reduce carbon dioxide emissions and help to mitigate climate change. Isoprenol is a chemical involved in the production of a jet biofuel blendstock called 1,4-dimethylcyclooctane (DMCO). Blendstocks are chemicals that are combined with other chemicals to create fuel.
Researchers at Brookhaven National Laboratory, the University of Pittsburgh, and Drexel University in Philadelphia are looking for a more sustainable way to disinfect water.
Researchers from KDK Collaboration at the Holifield Radioactive Ion Beam Facility of Oak Ridge National Laboratory recently made the first direct observations of the rare decay process such as K-40 decays into Calcium-40 and into Argon-40 through electron capture, providing insights into nuclear structure, potentially leading to improved accuracy in geological dating and a deeper understanding of nuclear physics.
For the first time, chemists in the University of Minnesota Twin Cities College of Science and Engineering have created a highly reactive chemical compound that has eluded scientists for more than 120 years. The discovery could lead to new drug treatments, safer agricultural products, and better electronics.
All-perovskite tandem solar cells have the potential to extend beyond the limits of silicon solar cells. Currently, Empa researchers are creating perovskite solar cells with a tunable band gap that can be stacked to create tandem cells with much higher efficiency.
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