Insights into Nitrogen‐doped Carbon for Oxygen Reduction: The Role of Graphitic and Pyridinic Nitrogen Species
Dongliang Wang, Jingping Hu, Junjie Wei, Xianli Liu, Huijie Hou
Abstract
Abstract Nitrogen‐doped carbons (N/Cs) manifest good catalytic performance for oxygen reduction reaction (ORR) for fuel cell systems. However, to date, controversies remain on the role of active sites in N/Cs. In the present study, ORR test was conducted on three N/Cs in O 2 ‐saturated 0.1 M KOH aqueous solution, where apparent linear correlation between graphitic N contents and ORR activity was observed. Theoretical calculations demonstrated that graphitic N doping is energetically more favorable than that of pyridinic N doping for ORR and the pyridinic N leads to more preferential with 2 e – ORR pathway. These results reveal that graphitic N plays a key role in N/Cs mediated ORR activity. This work lays a solid foundation on identifying the active sites in heteroatom‐doped carbons and can be exploited for rational design and engineering of effective carbon‐based ORR catalysts.