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New measurements show the proton’s electromagnetic structure deviates from theoretical predictions.
A molecular catalyst integrated with a carbon nitride semiconductor harvests sunlight to rapidly and selectively convert carbon dioxide into carbon monoxide.
Deblurring, practiced in optics, can reveal three-dimensional features of nuclear collisions.
Three common solvents for pretreating switchgrass yield lignin extracts with the potential for making different valuable bioproducts.
A first-of-its-kind measurement of the rare calcium-48 nucleus found a neutron-rich “thin skin” around a core of more evenly distributed protons and neutrons.
Colliding gold nuclei at various energies enables scientists to investigate phases of nuclear matter and their possible co-existence at a critical point.
A new cultivation technology called a “porous microplate” reveals how photosynthetic microalgae interact with their micro-environment.
Researchers study the energy and angular dependence of how neutrons scatter off materials to improve reactor safety and efficiency.
Scientists measure the proton’s electric and magnetic polarizabilities using the High Intensity Gamma Ray Source (HIGS).
Electrode engineering produces unprecedented selectivity, and high rates of carbon dioxide reduction to multicarbon products.
The observation of a resonance in the beryllium-11 nucleus suggests that the proton emission from beryllium-11 is a two-step process rather than a dark matter decay channel.
Scientists use engineered gene circuits in plants to control gene expression and root architecture.
