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Researchers have learned how to retain superconductivity at ambient pressure in a new class of high temperature superconductors.
An unexpected electron behavior called charge density waves in an iron-germanium metal material presents a new paradigm in emergent quantum phenomena.
Copper catalysts play an unexpected oxidizing role during unassisted photocatalysis when coupled with plasmonic light absorbers.
Scientists discover that superconductivity in copper-based materials is linked with fluctuations of ordered electric charge and mobility of vortex matter.
Three proteins work together to transmit signals for cell division, revealing new targets for cancer-fighting drugs.
Scientists can now verify theoretical predictions using one-dimensional compositions grown in-situ at a synchrotron spectroscopy station.
Combining synthesis, characterization, and theory confirmed the exotic properties and structure of a new intrinsic ferromagnetic topological material.
New production methods for cerium-134 advance technologies for imaging human disease and guiding treatment.
State-of-the-art techniques expand scientists’ fundamental understanding of heavy element 99, Einsteinium.
An X-ray image taken with a novel X-ray wavefront imager results in high precision measurements of intensity and direction of the X-ray beam.
Crystals grown from layers of atoms arrange themselves on semiconductor surfaces to add new capabilities.
Ultrafast X-rays track how associated pairs of atoms find new locations when triggered by light.
