Scientists at EPFL and AstraZeneca have developed a method to map the atomic-level structure of amorphous drugs, demonstrated ...

A study has found that an ancient protein motif that binds to nucleic acids is functionally "ambidextrous." This means that ...

Scientists have developed a powerful new method for selectively and reversibly breaking connections between brain cells—a ...

A single trapped ytterbium ion can be used to simulate complex changes in the energy levels of organic molecules interacting ...

Scientists have decoded the atomic structure of Photosystem I from a 3-billion-year-old cyanobacteria lineage, offering a unique look at early oxygen-producing photosynthesis. The ancient nanodevice, ...

Researchers utilized recently published telomere-to-telomere genomes of humans, chimpanzees, bonobos, gorillas, and two ...

Found in knee replacements and bone plates, aircraft components, and catalytic converters, the exceptionally strong metals ...

Found in knee replacements and bone plates, aircraft components, and catalytic converters, the exceptionally strong metals known as multiple principal element alloys (MPEA) are about to get even ...

This study presents a breakthrough in carbyne synthesis, utilizing carbon nanotubes to improve stability and production for future technological applications.