protecting the core from further oxidation. This explains the recyclability of the material. Fascinating chemistry." Why did the new catalyst work so well? Computational simulations showed that ...

like ethanol or methane. “The great thing about our process is the fact that it can be applied to any other catalysts system,” says co-lead author Jack K. Pedersen. “With our computational ...

The direct conversion of methane to methanol offers a promising approach to utilize abundant natural gas resources; however, the finding of suitable low-cost catalysts remains challenging due to the ...

such as ethanol or methane. The great thing about our process is the fact that it can be applied to any other catalysts system. With our computational framework, we can quickly screen clusters for ...

Why is the conversion of ethanol to ethanoic acid an oxidation reaction ... is homologous. It includes methane (CH₄), ethane (C₂H₆), propane (C₃H₈), and so on, where each compound ...

SAF will be essential to achieving the aviation industry’s ambitious decarbonization targets by 2050. Regulations will play a ...

A new study presents a copper catalyst that efficiently converts CO2 into acetaldehyde ... But in our case, an oxide shell formed around the cluster, protecting the core from further oxidation, which ...

The most widely adopted technique is steam reforming, where hydrogen atoms are separated from methane. Electrolysis or water splitting ... high energy bonds releases hydrogen in the presence of ...

In a study published in Nature Communications, a research group led by Prof. Deng Dehui, Assoc. Prof. Cui Xiaoju, and Prof.