Biological systems exhibit a range of complex functions at the micro- and nanoscales under non-equilibrium conditions (for example, transportation and motility, temporal control, information ...

Most of the drugs, plastics, and industrial materials widely used today are produced through chemical reactions. In general, most high-performance and sophisticated substances have complex structures, ...

Catalysis is crucially important for the world economy and the well being of society and is a core area of contemporary science that underpins the manufacture of approximately 90% of chemicals ...

A newly developed molecular catalyst specifically tailored for mechanochemical reaction conditions enables high-efficiency transformations at near room temperature. The first-ever molecular catalyst ...

Scientists have long noted with interest that in one of nature's crucial chemical reactions—the oxygen evolution reaction—it is manganese, rather than more plentiful similar elements such as iron, ...

Catalysts are substances that speed up chemical reactions without being consumed in the process. They are crucial in many industrial applications, from producing fuels to manufacturing pharmaceuticals ...

Researchers present a new generative AI model that can simultaneously design catalyst structures and predict their performance under specific reaction conditions. CatDRX is a generative AI framework ...

Researchers have created an iron catalyst that can facilitate important chemical reactions in place of the current catalyst, which is made from precious metals. A catalyst is a key ingredient for many ...

As the chemical industry looks to cut emissions, reduce toxic waste, and decarbonize its core processes, one area under close watch is catalysis. Catalysts are the unsung heroes of industrial ...

Developing new medicines can require thousands of chemistry experiments to identify the right recipe for a safe, effective ...

The dataset, which the researchers have made available on the Open Reaction Database, is nearly five times as large as the ...