A setback in growing light-responsive crystals led UB chemist Jason Benedict and his team to a novel method for mapping molecular arrangements.

Researchers at Kumamoto University and Nagoya University have developed a new class of two-dimensional (2D) metal-organic frameworks (MOFs) using triptycene-based molecules, marking a breakthrough in ...

Crystal polymorphism is critically important in the fields of pharmaceuticals and materials science. For instance, a metastable polymorph of an active pharmaceutical ingredient may benefit from ...

When scientists study how materials behave under extreme conditions, they typically examine what happens under compression. But what occurs when you pull matter apart in all directions simultaneously?

Minerals form the building blocks of almost everything on Earth. They are made up of crystals—regular, repeating atomic ...

An international group of researchers from New York University has developed a novel method of visualizing them that is similar to having X-Ray vision. With this new method, which they have fittingly ...

Scientists used high-performance TEM to image the process of gold atoms assembling into nanocrystals. It was discovered that the atoms undergo a spontaneous transition between disordered and ...

The performance of rechargeable batteries is governed by processes deep within their components. A fundamental understanding of electrochemistry, structure–property–performance relationships and the ...

The new cell-free protein crystallization (CFPC) method developed by Tokyo Tech includes direct protein crystallization and is a major headway in the field of structural biology. This technique will ...