Researchers at Goethe University Frankfurt have discovered a surprising role for formic acid in the human gut: The small ...

A research group at KAIST has developed an engineered E. coli strain that converts formic acid and CO2 to pyruvate and produces cellular energy from formic acid through reconstructed one-carbon ...

Formic acid dimers represent a paradigmatic model for studying the intricacies of hydrogen bond dynamics. When two formic acid molecules associate through dual hydrogen bonds, they form a stable, ...

Researchers have reported a nanocatalyst that is able to produce hydrogen isotope compounds D2 and HD via the heterogeneous dehydrogenation of formic acid in the presence of heavy water. Amine groups ...

Researchers develop a new method for the sustainable use of carbon dioxide. New synthetic metabolic pathways for fixation of carbon dioxide could not only help to reduce the carbon dioxide content of ...

Hydrogen fuel cells have long been floated as a potential platform for zero-emission vehicles, but problems with efficiency and storage have put up some roadblocks. Rather than using hydrogen in its ...

A research team led by Dr. Dandan Gao from the Department of Chemistry at Johannes Gutenberg University Mainz has developed a new method for the sustainable production of ammonia and formic acid.

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 ...

A research team affiliated with UNIST has unveiled a novel electrochemical system that converts carbon dioxide (CO₂), a major contributor to climate change, into high-value chemical products, like ...

The Netherlands Enterprise Agency (RVO), TNO, GAFT, Waterfuture, University of Twente, and DENS The new eCO2FORM project with a total of five project partners is coordinated by TNO and it aims to ...