A unique tool for imaging crystal growth

Neural nets capture microstructure evolution

Researchers have developed neural networks that can accurately predict the evolution of microstructures in materials under certain environments.

Hollow crystal spheres grow from broken symmetry

By taking advantage of bottle-brush polymers, researchers have discovered a way to grow hollow crystal spheres, and pause this growth to leave holes.

Microstructure explains improper abilities of ferroelectric material

For the first time, researchers have used electron microscopy to observe the unique microstructure of a novel, lead-free ferroelectric material.

Multiscale materials modeling

More to mica than meets the eye

Using an atomic force microscope, researchers have been able to determine the distribution of potassium ions on the surface of mica.

Energy-absorbing materials inspired on the hoof

hierarchical structure of horse's hoof inspires energy-absorbing, impact-resistant materials

New simulation technique predicts noble defects in 2D materials

A novel simulation technique can predict the defects in 2D materials caused by bombardment with noble gas ions.

Rodney Hill Prize in Solid Mechanics