A new catalyst built from isolated indium atoms allows scientists to convert CO2 into methanol more efficiently while revealing the hidden chemistry that drives the reaction.

This new cerium-based catalyst interconverts between two oxidation states with distinct chemical properties, enabling two completely different reactions to occur in the same container. Most of the ...

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, ...

Methanol is a key starting material for chemical products. Researchers can now produce this precursor from CO2 and hydrogen ...

Catalysts are essential to modern industry, accelerating reactions used to produce everything from fertilizers and fuels to medicines and hydrogen energy. But until now, scientists could not directly ...

Technologies that convert carbon dioxide (CO₂) emitted from factories and power plants into useful chemical feedstocks are considered key to achieving carbon neutrality. However, rapid degradation of ...

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 ...

Researchers have achieved a groundbreaking advancement in catalyst technology. Researchers at The University of Manchester have achieved a groundbreaking advancement in catalyst technology. They have ...

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 ...

Note: This video is designed to help the teacher better understand the lesson and is NOT intended to be shown to students. It includes observations and conclusions that students are meant to make on ...