C1 chemistry, which is the catalytic transformation of C1 molecules including CO, CO2, CH4,
CH3OH, and HCOOH, plays an important role in providing energy and chemical supplies …

The present Review highlights the challenges and opportunities when using the
combination CO2/H2 as a C1 synthon in catalytic reactions and processes. The …

Propelled by the vision of carbon-neutral energy systems, heterogeneous hydrogenation of
CO2 to formic acid/formate, a liquid hydrogen carrier, has been intensively studied as a …

Hydrogen production via electrocatalytic water splitting is hampered by the slow kinetics of
the anodic oxygen evolution reaction (OER). To address this limitation, the electrochemical …

In the context of global carbon dioxide increasing drastically, renewable energy is crucial
maintain the economic growth of the world. Hydrogen has attracted considerable attention …

The efficient conversion of CO2 to value‐added products represents one of the most
attractive solutions to mitigate climate change and tackle the associated environmental …

Formic acid is a widely used commodity chemical. It can be used as a safe, easily handled,
and transported source of hydrogen or carbon monoxide for different reactions, including …

Formic acid (FA) is a versatile molecule with widespread applications in both chemical
industries and renewable energy fields. However, the commercial manufacture of FA is still …

The escalating global demand for chemicals and energy, coupled with the rising carbon
emissions resulting from the extraction and combustion of fossil fuels, has had detrimental …

Abstract Formic acid [64-18-6] HCOOH, M r 46.03, is a colorless liquid with a pungent odor,
which is completely miscible with water and many polar solvents but only partially miscible …