Electrocatalytic C─N coupling through the coreduction of NOx and inorganic/organic carbon sources offers a sustainable route to value‐added organonitrogen compounds, yet it remains constrained by four generic challenges: energetic barriers, kinetic mismatch, selectivity loss, and system‐level limitations. Through the lens of these four challenges, this review highlights the recent research on dual‐site catalysts for electrocatalytic C─N coupling reactions. This review discusses how cooperative dual centers can promote substrate activation, regulate intermediate reaction kinetics, suppress competing pathways, and improve catalytic performance under system‐level constraints. Furthermore, we outline emerging methodologies for further design optimization based on dual‐site catalysts and point to future directions that extend beyond the design of dual‐site catalysts.
You et al. (Fri,) studied this question.