Researchers have solved a mystery that has confounded scientists for 80 years: the crystal structure of the ...

Crystals may seem flawless, but deep inside they contain tiny structural imperfections that dramatically influence their ...

Cornell researchers have developed a two-phase liquid crystal system that can rapidly change—and hold—its shape, transforming from a transparent thin liquid film to an opaque emulsion, and then back ...

Crystals are known far and wide for their beauty and elegance. But even though they may appear perfect on the outside, their ...

UChicago researchers created a ‘quantum-inspired’ revolution in microelectronics, storing classical computer memory in ...

Scientists have found that water ice in space isn't completely disordered as once believed. New research shows that up to 25% of so-called amorphous ice actually contains tiny crystals, changing how ...

Here we report a convergent crystal-structure model for feiite based on synchrotron single-crystal X-ray diffraction data collected on three grains of feiite synthesized at 12 GPa and 1200 degrees C.

100-year-old crystal mystery cracked by US scientists; could unlock next-gen batteries When only tiny, imperfect nanocrystals are available, crystallography falls short, leaving the structure of ...

As the clouds clear on computational crystal structure prediction, is the technique ready to empower mainstream materials research? James Mitchell Crow reports ...

The prediction of crystal properties is crucial in crystal design. Currently, most methods employ graph neural networks to model crystal structures and have achieved satisfactory prediction accuracy.

I want to train the MatterGen model on my own dataset to generate new crystal structures based on targeted bandgap values. To prepare the data, I created a CSV file where each row contains the name ...