New research shows how engineered enzymes and cell-free systems can be combined to recycle CO2 into Acetyl-CoA and other ...

Researchers found manganese-based catalysts can efficiently convert CO2 into formate, a hydrogen source for fuel cells, ...

For a carbon-neutral bioeconomy, processes are needed that can efficiently capture CO 2 and convert it into valuable products. Formic acid, or more specifically its salt, formate, is considered a ...

Researchers from Tokyo Metropolitan University have developed an innovative electrochemical cell that efficiently converts captured carbon dioxide (CO2) into formate, a green fuel. This new system, ...

You wouldn’t guess that New Haven and Columbia—two college towns more than a thousand miles apart—are part of the same green energy story. In labs at Yale ...

A research team from China Agricultural University and Nanyang Technological University reported in eScience that they have developed a copper-modified cobalt oxyhydroxide catalyst capable of ...

Researchers at the University of Warwick report that when the sodium formate is used in combination with a metal-based cancer treatment it can greatly increase its ability to shut down cancer cells.

Ethyl formate is a simple aliphatic ester that is full of benefits and concerns. It’s a clear, slightly oily liquid with a pleasant, rumlike odor and the flavor of raspberries. The ester occurs in ...

Methyl formate, a clear, volatile liquid, is the simplest carboxylate ester. It can be made in the lab by the acid-catalyzed esterification of formic acid and methanol. Industrially, it is produced by ...