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 ...

Professor Yutaka Amao of the Osaka City University Artificial Photosynthesis Research Center and Ryohei Sato, a 1st year Ph.D. student of the Graduate School of Science majoring in Physics and ...

Sept. 3 (UPI) --Engineers at Rice University in Texas have developed a catalytic reactor that can convert CO2 into high concentrations of pure formic acid, which can be used as a liquid fuel. The ...

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 ...

MOST text-books of organic chemistry contain the statement that formic acid and formates owe their reducing character to the presence of an aldehyde group in their molecule, quoting in support of this ...

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 ...

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 ...

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 ...