Yale scientists have developed a more efficient process to convert CO₂ emissions into methanol using a "two-in-one" catalyst, making carbon capture more scalable for industrial use. Yale scientists ha ...

This car's name is not the only unique thing about it: the Gumpert Nathalie also explores new options for sustainable ...

However, while it is still selective in the first step, the reaction path then branches out and up to 16 different products are formed, not necessarily methanol. The situation is different with ...

Transforming CO 2 into methanol is a two-step chemical reaction. First, CO 2 reacts with a catalyst to become carbon monoxide (CO). The CO then undergoes a catalytic reaction to become methanol.

The new design increases the methanol production rate and results in a higher Faradaic efficiency of 50%, meaning less of the electricity used to catalyze the reaction is wasted. The previous ...

Professor Alistair Hay is a toxicology expert, he explains why different people have different reactions to the consumption of methanol. "Individuals vary in their response to methanol.

But the two reaction steps have a mismatch on this single-site catalyst ... a company that works with industry partners to convert carbon waste into methanol liquid fuel, based on research from the ...