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 ...

Scientists have successfully developed nanomaterials using a so-called bottom-up approach. They exploit the fact that crystals often grow in a specific direction during crystallization. These ...

The large language model automates literature search, synthesis, and structural analysis to speed up materials discovery and development ...

Crystalline nanomaterials are valuable because their highly ordered structures give them useful properties for technologies such as data storage and optical devices. But forming nanoparticles from ...

Under specific conditions, a liquid solution can form solid crystals, often due to environmental factors like temperature shifts, concentration changes, or air exposure. In life science OEM and ...

Thermal stability and environmental sustainability are paramount to the practical deployment of perovskite solar cells (PSCs), which are designed to harness solar energy through high-efficiency and ...

Remember that old high school chemistry experiment where salt crystals precipitate out of a saltwater solution – or maybe the one where rock candy crystals form from sugar water? It turns out that ...

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, ...