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 ...

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 ...

According to a study published in Nature Nanotechnology, two researchers from Oregon State University may soon be able to create methanol more quickly and efficiently. Methanol is crucial for the ...

Zhou Wu, an expert on hydrogen catalysis has been a driving force behind China's research into the process that could ...

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

The automaker has revolutionized almost every major supercar component you can think of, with many head-scratching—albeit ...

The five HaiSea and SAAM electric tugs eliminate about 7,500 tonnes of emissions annually—the equivalent of 1,500 combustion-engine ... alternatives—chiefly methanol, ammonia, hydrogen ...

With a 50% better Faradaic efficiency and a higher rate of methanol synthesis, the new design wastes less electricity necessary to catalyze the reaction. Less than 30 ... as an alternative to gasoline ...

Methanol, commonly used in internal combustion engines, has been identified as an ideal ... The process of converting CO2 into methanol involves two chemical reactions. First, CO2 is converted into ...

Yale chemist Hailiang Wang and his colleagues report their most recent success in turning industrial emissions of CO 2, a major greenhouse gas causing climate change, into methanol, a common liquid ...

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 ... that speeds the rate of ...