Researchers Test Quantum Theory with Precision-Engineered Thin Films
Scientists can now verify theoretical predictions using one-dimensional compositions grown in-situ at a synchrotron spectroscopy station.
Scientists can now verify theoretical predictions using one-dimensional compositions grown in-situ at a synchrotron spectroscopy station.
X-rays penetrate a working electrode to determine the structure and chemistry in play when water enters the electrochemically active layers.
Scientists use a common engineering approach to enhance the superconductivity and induce ferroelectricity in the quantum material strontium titanate.
Package provides end-to-end analysis of microscopy images for accelerated materials research.
Researchers find a way to improve the stability of hybrid organic-inorganic crystals called mixed halide-perovskites, a promising material for solar cells.
Three-dimensional superconducting electrons choose to cross over to a flatter alternate dimension.
Experiments examine atomic disorder and dynamics that could explain beneficial optical properties.
X-ray imaging shows that selectively etching surface nickel from a nickel-platinum alloy leaves a chemically active platinum coating.
For the first time, the error correction process significantly enhances the lifetime of quantum information.
Researchers used ultrafast electron diffraction to image the structure of the pericyclic minimum, the “transition state” of electrocyclic reactions.
Trapping electrons with atomic vibrations has the potential to tune behavior in a quantum material.
Scientists image the complete set of light-induced quantum states in 2-D crystals of tungsten disulfide and reveal the mechanisms coupling these states.