Reaction kinetics and dynamics underpin our fundamental understanding of chemical transformation processes, describing how and at what rate reactants are converted into products. At the core, reaction ...

Measuring kinetics of reactive intermediates, such as radicals, is often difficult because of a lack of adequate detection techniques and because such species typically have short lifetimes and low ...

Optimization isn't always about maximization: researchers found a subtle rule where a bit of restraint actually speeds up ...

Enzyme kinetics involves the measurement of the rate at which chemical reactions that are catalyzed by enzymes occur. Knowledge about the kinetics of an enzyme can reveal useful information about its ...

To understand phenomena like alkali-silica reactions (ASR), alkali-carbonate reactions (ACR) and alkali-aggregate reactions (AAR), it is important to investigation reaction kinetics in cement, mortar ...

They are less costly to procure, have insignificant operating expenses, and require only marginal laboratory setup compared to their larger, floor-standing counterparts. Despite being inherently less ...

Chemical kinetics isn’t just textbook theory—it’s the science of how fast reactions happen and why. From understanding rate laws to applying AI in catalyst design, mastering kinetics can transform lab ...

Chemical-kinetic modelling is the key to understanding and simulating reactive combustion processes. Our aim is to develop, optimise and provide accurate and efficient models for CFD that are directly ...

The experimental analysis of the chemical reactions is the basis for a fundamental understanding of the combustion of all fuels used in energy conversion and mobility. Of particular interest here are ...