Opposing teams of water-loving and oil-loving molecules separate metals called lanthanides that are important in developing clean energy technologies.
Opposing teams of water-loving and oil-loving molecules separate metals called lanthanides that are important in developing clean energy technologies.
Plasmas with negative triangularity show reduced gradients that develop into instabilities, including under conditions relevant to fusion power plants.
A new correction factor for predicting dissolution rates uses measurable geological properties in fractured media.
Settling a long-standing question, scientists have proven that antihydrogen falls downward in a first-ever direct experiment.
Small rotating magnetic islands in tokamaks flowing at the same speed can couple together to cause disruptive islands that reduce plasma confinement.
For the first time, scientists successfully track energetic ion flow through space and energy driven by electromagnetic waves in fusion plasmas.
A new experiment determines the energy available to drive chemical reactions at the interface between an illuminated semiconductor and a liquid solution.
Oak Ridge’s algorithms for exascale computers anticipates the arrival of next-generation nuclear power for climate-change mitigation.
Protein Structures Signal Fresh Targets for Anticancer Drugs
Perturbing the edge magnetic field of a tokamak produces a counterintuitive response: particles entering the confined region rather than escaping it.