Far from being a mere spectator, solvents can play a larger role in chemical reactions, likely including those used in energy storage and biology.
Scientists determine the accuracy of computational methods used to study the sulfate radical approach to purifying water.
Hydrogel pores can modify the molecular-level motion of water and dissolved ions.
Characterizing carbon stored in deeper sediments below soils is critical for understanding the stability and dynamics of Earth’s carbon pool.
The MicroBooNE experiment demonstrates the use of machine learning to interpret images made by a liquid-argon particle detector.
New crime scene investigation technique offers a hard look at the traces that particles leave before fleeing the scene.
Scientists developed a method to better distinguish the tracks that particles leave behind in liquid argon.
Findings could rewrite textbooks about molecular structure for solvent ubiquitous in chemistry and biology.
Element-selective method reveals interfacial properties of materials used for water purification, catalysis, energy conversion, and more.
The genetics of viruses living along a permafrost thaw gradient may help scientists better predict the pace of climate change.
Widespread fracturing during lake drainage triggers vertical shafts to form that affect the Greenland Ice Sheet.
The data system will allow for more detailed, consistent, and up-to-date global emissions trends that will aid in understanding aerosol effects.
