Water frozen in the darkness of space doesn't appear to behave the way we thought. A new research effort using computer simulations and experiments to explore the most common form water takes in the ...

Visual representation of the structure of low-density amorphous ice. Many tiny crystallites (white) are concealed in the amorphous material (blue). “Space ice” contains tiny crystals and is not, as ...

A chemist at North Carolina State University has made breakthrough discoveries that advance basic understandings of the nature of liquids and glasses at the atomic and molecular levels. Featured in ...

Researchers explain the dissolution behavior of silica glasses manufactured by different processes, a natural biologically produced silica and a synthetic, dispersed or colloidal silica. Their ...

"Ice in the rest of the universe has long been considered a snapshot of liquid water – that is, a disordered arrangement fixed in place. Our findings show this is not entirely true." When you purchase ...

AZoNano speaks to Dr. John Miao about his involvement in the breakthrough research that could rewrite our understanding of how substances are formed at an atomic level. Using an innovative atomic ...

From the delicate patterns of snowflakes to the robust structure of diamonds, crystals are all around us. For a long time, scientists believed their growth followed a predictable path. But now, ...

Why do glass and other amorphous materials deform more easily in some regions than in others? A research team from the University of Osaka, the National Institute of Advanced Industrial Science and ...

For an oyster growing a shell, a food scientist striving for the perfect ice cream, or a pharmaceutical operator isolating a drug, crystallization is king. Even though the crystal growth process is ...

"Space ice" contains tiny crystals and is not a completely disordered material like liquid water, as previously assumed, according to a new study by scientists at UCL (University College London) and ...