Using an ensemble of artificial intelligence (AI) agents enabled faster, more accurate data analysis of synchrotron x-ray data.
Monitoring photo-excited electrons in real time with nanometer sensitivity reveals strengths and weaknesses in a common light-harvesting material.
Arsenic doping dramatically improves the ability of black phosphorous to convert heat into electricity.
New experiment finds evidence of a collective behavior of electrons to form particle-like quantum objects called “anyons.”
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.
Scientists use quantum entangled light for a new form of microscopy able to detect signals normally hidden by quantum noise.
Researchers create DNA nano-chambers with bonds that can control the assembly of targeted nanoparticle structures.
Ozone injection may lead to cleaner, more efficient internal combustion engines.
Highly selective interactions between regions of hybrid polymer particles means they can be programmed to assemble into crystal superstructures.
Study finds atomic-scale ordering of elements in a metallic alloy that is responsible for alloy’s increased strength.
Scientists uncover a microscopic mechanism that involves atomic vibrations in a quantum material that trap electrons.
