Yale chemist Hailiang Wang and his colleagues report their most recent success in turning industrial emissions of CO2, a major greenhouse gas causing climate change, into methanol, a common liquid ...

Methanol, important for the manufacture of many everyday goods and for its green energy potential, may soon be produced ...

Scientists have taken a critical next step in creating a scalable process to remove carbon dioxide (CO2) from the air and 'recirculate' it as a renewable fuel. Chemists now describe their latest ...

The research team has developed a new non-precious metal catalyst based on low-cost cobalt-iron. This catalyst demonstrates excellent ammonia decomposition performance at a low expense, maintaining ...

Cornell researchers have captured an unprecedented, real-time view of how a promising catalyst material transforms during ...

Cornell researchers capture real-time transformation of a cobalt-manganese oxide catalyst, revealing potential as a ...

Nocera and co-workers 3 have recently discovered a cobalt-phosphate-based catalytic system that can function in a very similar way to the natural manganese catalyst of PSII for producing molecular ...

Yale University scientists have developed a new process that converts CO2 from industrial emissions into renewable methanol ...

The catalyst works by opening up a route between ... Homogeneous hydrogenolysis of organohalides using cobalt- and rhodium-catalysis under photocatalytic conditions facilitates the synthesis ...

Yale scientists have taken a critical next step in creating a scalable process to remove carbon dioxide (CO2) from the air and ...

Methanol, important for the manufacture of many everyday goods and for its green energy potential, may soon be produced faster and more efficiently.