Chemical kinetics and reaction dynamics form the cornerstone of our understanding of how reactions proceed, detailing the temporal evolution of chemical processes from the microscopic to the ...

Chemical oscillations represent a fascinating class of non‐equilibrium phenomena in which the concentrations of reactants and products vary periodically over time. Such behaviour, typically ...

Chemists who discovered a new technique for measuring complex reactive processes at the interface of liquids, solids and gases have received the 2023 Michigan Technological University Bhakta Rath ...

To support chemical reaction discovery, a research team from WPI-ICReDD, led by Professor Masaharu Yoshioka and Assistant Professor Pinku Nath, have developed ChemOntology—a new artificial ...

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 ...

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 ...

Traditionally, chemical reactions have been described as one-line “equations” in which substrates, say A and B, convert purposefully but rigidly into a desired product, say C. Naturally, it has been ...

High-repetition laser-induced instrument enables kinetic measurements of fluorescent decomposition products as a proxy for ...