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 ...

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 ...

Chemists now describe their latest breakthrough in creating methanol -- a widely used liquid fuel for internal combustion and ... is a two-step chemical reaction. First, CO 2 reacts with a ...

Methanol, also known as wood alcohol, is a comparatively clean-burning compound that can be used in fuel cells, as an alternative to gasoline in internal combustion engines, and as fuel for ships ...

Transforming CO2 into methanol is a two-step chemical reaction. First, CO2 reacts with a catalyst to become carbon monoxide (CO). The CO then undergoes a catalytic reaction to become methanol. The ...

Methanol, also known as wood alcohol, is a comparatively clean-burning compound that can be used in fuel cells, as an alternative to gasoline in internal combustion engines, and as fuel for ships ...

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.

In a new study published in the journal Nature Nanotechnology, Yale chemist Hailiang Wang and his colleagues describe their latest breakthrough in creating methanol — a widely used liquid fuel for ...