The carbon dioxide reduction reaction (CO2RR) catalyzed by N‐doped carbon materials was studied under operando conditions by on line differential electrochemical mass spectrometry and in‐line gas chromatography. Fe/NC electrocatalysts were synthesized by using a Fe+2‐impregnated pyridyl/triazine complex heat treated at 800 °C in nitrogen (Fe/NC(N2)) or ammonia (Fe/NC(NH3)) atmospheres; an iron‐free nitrogen‐doped carbon electrocatalyst (NC(NH3)) was also synthesized and included for comparison. Here, superior CO faradaic efficiencies were evidenced for NC(NH3) compared to Fe/NC(NH3), independently of the applied electrode potential; however, much larger overall catalytic activity for the promotion of the CO2RR and/or HER has been observed for Fe/NC(NH3), generating different stoichiometric ratios of syngas (CO/H2). Another important evidence is that N‐pyridinic groups, even in absence of Fe−N4 moieties and presence of high iron nanoparticles loading, play an important role as active sites for selective CO2 reduction to CO at low overpotentials.
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