Australian scientists have gained new insights into the fundamental behavior of flexible materials, allowing for the design of new building materials and technology.

Crystals are supposed to be hard and brittle. But when we make them bendy, they help reveal the secrets of how elastic ...

Scientists have discovered a way to use single missing atoms in crystals as memory cells, packing terabytes of data into a ...

Using a novel surface-sensitive spectroscopy method, scientists explored atomic vibrations in crystalline material surfaces near interfaces. The findings illuminate quantum behaviors that play ...

From punch card-operated looms in the 1800s to modern cellphones, if an object has an "on" and an "off" state, it can be used ...

Synchrotron microbeam X-ray diffraction analysis (both small- and wide-angle) provides insights into lamellar orientation and structure. The microbeam X-ray results reveal monoclinic crystals for ...

Two spiraling structures come together to create the Solomon R. Guggenheim Museum, Frank Lloyd Wright’s midcentury masterpiece on Manhattan’s Upper East Side. Wright chose the circular shape ...

Decades ago, measurements of such seismic waves identified two strange continent-sized structures ... must be made up of minerals with large crystals that could remain stable in the heat.

Computational crystal structure prediction (CSP) is a valuable tool for efficiently determining this polymorph risk. Improving the computational cost of these protocols could make polymorph screens ...

The software ReciPro makes various crystallographic calculations, visualizes a crystal structure, simulates a diffraction pattern and high-resolution TEM image, indexes diffraction spots, plots ...