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

Excess CO 2 and NO 3-released by human industrial activities have contributed to the
deterioration of the global environment. Simultaneous activation and reduction of CO 2 and …

Electrocatalytic C− N coupling process is indeed a sustainable alternative for direct urea
synthesis and co‐upgrading of carbon dioxide and nitrate wastes. However, the main …

Conspectus Here, we discuss recent advances and pressing challenges in achieving
sustainable urea synthesis. Urea stands out as the most prevalent nitrogen-based fertilizer …

Abstract Urea (NH 2 CONH 2) is an essential fertilizer for humanity. Nevertheless, industrial
urea production and its feedstock NH 3 production are energy-extensive and involve largely …

Electrochemical C− N coupling reaction based on carbon dioxide and nitrate have been
emerged as a new “green synthetic strategy” for the synthesis of urea, but the catalytic …

The electrochemical processing of anthropogenic CO2 is an emerging technology aimed at
utilizing renewable energies to synthesize valuable chemicals. Recently, developments in …

The electrocatalytic synthesis of C–N coupling compounds from CO2 and nitrogenous
species not only offers an effective avenue to achieve carbon neutrality and reduce …

The electrochemical reduction of CO2 into value-added chemicals has been explored as a
promising solution to realize carbon neutrality and inhibit global warming. This involves …

In response to the ever-increasing global population and the growing demand for energy
and food, human activities have exerted a substantial impact on the global nitrogen cycles …