A team co-led by UC San Diego and the University of Michigan reports that short pulses of sound could remotely drag a structural defect through a metamaterial lattice, potentially letting researchers ...

DAEJEON, South Korea, Jan. 27, 2026 /PRNewswire/ --Topological defects govern how many advanced materials behave, but predicting them has traditionally required slow, resource-intensive simulations.

When we talk about defects, we generally think of flaws or impairments. However, as far as materials science is concerned, defects represent windows of opportunity. A new Collaborative Research Center ...

Cadmium selenide nanoplatelets provide a promising foundation for the development of innovative electronic materials. Since the turn of the millennium, researchers around the world have taken a ...

High discharge density was achieved in high-quality relaxor ferroelectric BNT-based ceramics through a combination of chemical doping, hierarchical structure design, advanced sintering technology, and ...

DAEJEON, South Korea, Jan. 27, 2026 /PRNewswire/ --Topological defects govern how many advanced materials behave, but predicting them has traditionally required slow, resource-intensive simulations.

The AI model rapidly maps boundary conditions to molecular alignment and defect locations, replacing hours of simulation and enabling fast exploration and inverse design of advanced optical materials.