Supercomputing Low-Emission Engine
Researchers modeled design concepts for innovative, opposed-piston engine on Titan supercomputer.
Read more about Supercomputing Low-Emission Engine
Researchers modeled design concepts for innovative, opposed-piston engine on Titan supercomputer.
Read more about Supercomputing Low-Emission EngineThe two most abundant elements in the universe, hydrogen and helium, were previously thought to be impossible to measure by X-ray photoelectron spectroscopy.
Read more about X-ray Spectroscopy of Hydrogen and HeliumScientists catch details with atomic resolution, potentially helping design systems to use sunlight and water to produce fuels.
Read more about Atomic Snapshots of PhotosynthesisScientists investigate a threshold for rapid ice-sheet degradation in the West Antarctic Ice Sheet.
A careful consideration of electric fields could lead to faster industrial processes that use less energy and release less waste.
Element-selective method reveals interfacial properties of materials used for water purification, catalysis, energy conversion, and more.
Widespread fracturing during lake drainage triggers vertical shafts to form that affect the Greenland Ice Sheet.
Artificial intelligence on Summit to discover atomic-scale structures.
A new modeling framework helps understand the consequences of future sea-ice loss in the Arctic.
The mechanism responsible for creating intense magnetic fields in laser-driven plasmas also helps tear the fields apart.
Unexpected molecular interactions involving water clusters have a subtle, yet profound, effect on extractants picking their targets.
How microbial communities adjust to nutrient-poor soils at the genomic and proteomic level gives scientists insights into land use.