A research team has successfully developed a new method that can prevent the crossover of large fuel molecules and suppress the degradation of electrodes in advanced fuel cell technology using ...

Catalytic hydrogenation and dehydrogenation of formic acid and carbon dioxide represent pivotal processes in the conversion of renewable resources into clean energy carriers. These reactions allow for ...

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, ...

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 ...

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 ...

A study published in the Journal of the American Chemical Society recreated in the laboratory chemical reactions that may have occurred on Earth about 4 billion years ago, producing the first ...

The world’s oceans are Earth’s largest carbon sink, storing about 140 times more carbon than the atmosphere. But the oceans are reaching their limits. The more carbon the oceans absorb, the more ...