Crystal engineering harnesses the principles of supramolecular chemistry to design and synthesise novel crystalline architectures with tailored properties. By exploiting specific intermolecular ...

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, ...

In nature and technology, crystallization plays a pivotal role, from forming snowflakes and pharmaceuticals to creating advanced batteries and desalination membranes. Despite its importance, ...

A new theory 'demystifies' the crystallization process and shows that the material that crystallizes is the dominant component within a solution -- which is the solvent, not the solute. The theory ...

Peter Vekilov, University of Houston Frank Worley Professor of Chemical and Biomolecular Engineering, has published that incorporation of molecules into crystals occurs in two steps, divided by an ...

A quick, purification-free method was developed by researchers at the Institute of Science Tokyo, to capture the detailed 3D ...

Crystallization research in the 1990s : an overview / Allan S. Myerson -- Integral equation analysis of homogeneous nucleation / Günther H. Peters, John Eggebrecht, and Maurice A. Larson -- ...

Researchers have discovered that quantum interactions between particles can be used to create time crystals with their own ...

A recent theory challenges conventional understanding of crystallization. It shows that the dominant element in a solution—the solvent, not the solute—is the material that crystallizes. This finding, ...