Photoreduction of CO2 into transportable fuel like formic acid (HCOOH) is a great way of dealing with CO2's rising levels in the atmosphere. To aid in this mission, a research team chose an easily ...

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 ...

Flowchart of the process (above) for producing formic acid through the conversion of newly developed carbon dioxide (CO2) using Carbon Capture & Utilization (CCU), and pilot-scale process verification ...

The molecular structure of a catalytically active key intermediate is determined in solution by employing 2D IR spectroscopy measuring vibrational cross-angles. The formate intermediate (2) in the ...

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 ...

A research team in Germany has developed bimetallic two-dimensional supercrystals with remarkable catalytic properties. They can be used to produce hydrogen from formic acid decomposition and ...

As the world seeks solutions to reduce carbon emissions and transition toward a sustainable and cost efficient chemical industry, efficient utilization of CO₂ has become a major challenge. In response ...

Held together by only one carbon atom, formic acid is the simplest carboxylic acid. The market for this chemical is relatively small as well—a fraction of the demand for organic acids such as ...

A study published in the Journal of the American Chemical Society has recreated in the laboratory chemical reactions that may have occurred on Earth about four billion years ago, producing the first ...