In a recent article, researchers from the University of Jyväskylä, Finland, emphasize the importance of multiscale modeling of catalysis in understanding and developing (electro)chemical processes.

Understanding the reaction pathways and kinetics of catalytic reactions at the atomic scale is critical to designing catalysts for more energy-efficient and sustainable chemical production, especially ...

Chemists can automate sequences of chemical reactions using flow reactors, but these systems often need sophisticated engineering to set up and control. Bartosz Grzybowski and coworkers from Ulsan ...

Creating complex molecules usually requires years of experience and countless decisions, but a new AI system is changing that ...

For years, scientists thought some complex molecules could only be formed on Earth. But what if we found these kinds of molecules out in space after all? In this episode of Reactions, we explore new ...

The GraSSCoL framework consists of three stages: pre-processing, generation, and re-ranking. Decoding cosmic evolution depends on accurately predicting the complex chemical reactions in the harsh ...

Using the advanced GALILEO Array coupled with the 4π Si-ball EUCLIDES, the researchers conducted in-depth spectroscopic analysis to track and identify the reactions. The gamma-gamma coincidence method ...

Mechanochemistry is a growing field for chemical reactions that proceed in the solid state in the absence, or with minuscule ...