Decoding the Lifecycle of Photogenerated Charges
Monitoring photo-excited electrons in real time with nanometer sensitivity reveals strengths and weaknesses in a common light-harvesting material.
Monitoring photo-excited electrons in real time with nanometer sensitivity reveals strengths and weaknesses in a common light-harvesting material.
Researchers have improved understanding of the photodissociation of pyruvic acid in the atmosphere.
Molecular design and light can control electron spin, resulting in fast orientation of the spin direction relative to an applied magnetic field.
Ozone injection may lead to cleaner, more efficient internal combustion engines.
Researchers improve their scientific understanding of heterogeneous catalysis by imaging the gas just above the surface of the catalyst.
Using the connected moments mathematical technique decreases the time and computational power needed for quantum computing simulations of chemical systems.
Actinide tetrafluorides exhibit significant variations in their electronic structures despite having nearly identical crystal structures.
Research points to a way to design efficient quantum algorithms systematically, not by trial and error.
Researchers take ultrafast infrared spectroscopy snapshots of how light breaks down gas phase iron pentacarbonyl.
A new data pipeline identifies metabolites following heavy isotope labeling.
State-of-the-art techniques expand scientists’ fundamental understanding of heavy element 99, Einsteinium.
A new study seeks to improve reactive transport models by more accurately factoring in how bacteria move in groundwater.