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

"This new chemistry gives us control over molecular structure in a way that's both simple and broadly useful," added Dr. Grocott. "It opens the door to designing smarter, better-targeted compounds ...

To date, only a few compounds from the widely available main group elements have been able to activate small molecules. This also applies to carbon monoxide. Moreover, reactions with CO as a building ...

Attaching amino acids to a hydrophobic organic molecule allows them to self-assemble into rare, knotted structures with ...

Utrecht University researchers Rodolfo Subert and Marjolein Dijkstra show in their latest study that complex ...

SPaDe-CSP first predicts most probable space groups and crystal densities using machine learning and then employs an efficient neural network potential for structure refinement. Prediction of crystal ...

Google DeepMind, Google LLC’s artificial intelligence research unit, today detailed a new version of its AlphaFold neural network for biologists. One of the factors that influence the behavior of a ...

Catalytic molecules can form metabolically active clusters by creating and following concentration gradients -- this is the result of a new study. Their model predicts the self-organization of ...

Chemists are constantly tasked not just with designing useful new molecules — for novel drugs, energy-storing materials and countless other jobs — but with designing better ways to make those ...