Every day, your body replaces billions of cells—and yet, your tissues stay perfectly organized. How is that possible?

Once thought unlikely, this new finding in coordination chemistry could lead to promising advances in catalysis and materials science. For more than 100 years, the widely accepted 18-electron rule has ...

Long thought to be completely disordered, space ice appears to have some crystallized regions, new research suggests.

Scientists at ETH Zurich have developed a powerful method to look deep inside single-atom catalysts—materials where every ...

Here we use cryogenic electron microscopy to determine the structure of TbAQP2 from Trypanosoma brucei, bound to either the substrate glycerol or to the sleeping sickness drugs, pentamidine or ...

Scientists have created a new machine learning algorithm that can be applied to crystallography, allowing researchers to near-perfectly infer the atomic structure of nanocrystals from simple ...

The algorithm was able to determine the atomic structure from nanometer-sized crystals of various shapes, including samples that had proven too difficult for previous experiments to characterize.

More information: Ruiyu Wang et al, Atomic scale insights into NaCl nucleation in nanoconfined environments ... Ruiyu earned his Ph.D. from Temple University, where he studied the structure, dynamics, ...

The international collaboration team was even able to use this data to obtain direct information about the deformation of the atomic nucleus along the ytterbium isotope chain. This can provide new ...