Catalysts play a vital role in modern society, supporting processes from metallurgy to pharmaceutical production. To reduce ...

Researchers have made a groundbreaking discovery by identifying the structure and reactivity of rhodium-acylnitrenoid intermediates in catalytic hydrocarbon amination reactions. By studying ...

The vision of the future of miniaturization has produced a series of synthetic molecular motors that are driven by a range of energy sources and can carry out various movements. A research group has ...

Relay catalysis connects multiple catalytic reactions so that the product of one step becomes the reactant of the next. This approach can improve efficiency, increase selectivity, and reduce energy ...

Perovskites—a class of compounds with a unique ABX3 structure and high temperature stability—are promising materials for ...

A single cerium catalyst has been shown to drive two distinct reactions in one pot, enabling efficient, redox-adaptive chemical synthesis and paving the way for greener, tandem manufacturing processes ...

The working principle of so-called promoters in a catalytic process has been effectively seen in real-time for the first time by researchers at TU Wien. Although their significance in technology is ...

Nobel laureate David Baker’s latest foundation model can design proteins that interact to any biomolecule for broad biotech applications.

Iron-nitrogen-carbon catalysts have the potential to replace the more expensive platinum catalysts currently used in fuel ...

Led by Director CHANG Sukbok, scientists from the Center for Catalytic Hydrocarbon Functionalizations within the Institute for Basic Science (IBS) have made a breakthrough in understanding the ...