The energy crisis caused by the incessant growth in global energy demand joint to its
associated greenhouse emissions motivates the urgent need to control and mitigate …

Thermochemical conversion of fossil resources into fuels, chemicals, and materials has
rapidly increased atmospheric CO2 levels, hindering global efforts toward achieving carbon …

In manufacturing C− N bond‐containing compounds, it is an important challenge to alternate
the conventional methodologies that utilize reactive substrates, toxic reagents, and organic …

The recycling and utilization of CO 2 is gaining interest in the fight against global warming.
Considering CO 2 not as a waste or a pollutant but as an opportunity is a concept that could …

Although electrocarboxylation reactions use CO2 as a renewable synthon and can
incorporate renewable electricity as a driving force, the overall sustainability and practicality …

We performed H-cell and flow cell experiments to study the electrochemical reduction of
CO2 to oxalic acid (OA) on a lead (Pb) cathode in various nonaqueous solvents. The effects …

The construction of high-efficiency bifunctional electrocatalysts is still a main challenge for
hydrogen production from water splitting, in which comprehensive structure regulation plays …

Abstract The Fischer-Tropsch (FT) synthesis is recognized for its ability to produce long-
chain hydrocarbons. In this study, we aimed to replicate FT synthesis using electrochemical …

Converting CO2 into high value‐added chemicals by renewable energy directly alleviates
the problem of resource shortages, while also reduces the amount of CO2 in the …

Electrochemical CO2 reduction to oxalic acid in aprotic solvents could be a potential
pathway to produce carbon-neutral oxalic acid. One of the challenges in aprotic CO2 …