A unique symbiotic signal is more common among microbes than previously believed and causes unexpected behaviors in pathogenic fungi.
A new approach for measuring nuclear recoils in superconducting quantum sensors enables the first limits on sterile neutrinos from beryllium-7 decay.
Nuclear theorists put pen to paper and code to computer to detail this subatomic particle’s inner structure.
Synthetic materials can be engineered to recognize potential pathogens.
A new approach to functional and physiologically stable DNA origami for biomedical applications
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.
Understanding Ions’ Subtle Molecular-Level Interactions Allows Scientists to Tune the Melting Point
Neutron and X-ray scattering shed light on exotic states that determine the electronic properties of materials.
New electronic ring-containing polymers enable unexpected movement of energy along the backbone connecting the polymer and within each ring.
Computational design of bundled peptide building blocks that can be precisely linked provides new ways to create customized polymers.
Scientists track down coexistence of multiple shapes in the Nickel-64 nucleus: a spherical ground state and elongated and flattened shapes.
