
Watching the Evolution of Nanostructures in Thin Films
Scientists discover a high-resolution X-ray fluorescence probe to measure nanostructures in thin films.
Scientists discover a high-resolution X-ray fluorescence probe to measure nanostructures in thin films.
Synthetic materials can be engineered to recognize potential pathogens.
A new approach to functional and physiologically stable DNA origami for biomedical applications
Researchers unveil a new catalytic mechanism in a novel material used for ammonia synthesis, a key component in fertilizer.
Designer polymers effectively mimic natural proteins in proton transport across membranes for health and energy technologies.
Scientists use X-ray-sensitive tags to see protein molecules in cells, opening new doors for studies in health, medicine, and bioscience.
Researchers study how internal stress evolves in high-performance alloys used in jet engines and power turbines.
Researchers have created a novel membrane platform for studying the structure and function of membrane proteins in their realistic environment.
A newly designed X-ray oscillator may enable atomic level precision with intense X-ray pulses.
Scientists use a machine learning algorithm to reduce tuning time of a dozen instruments at once.
A novel terahertz laser achieves the performance goals critical for new applications in sensing and imaging.
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.