An Adjacent Atomic Platinum Site Enables Single-Atom Iron with High Oxygen Reduction Reaction Performance

The modulation effect has been widely investigated to tune the electronic state of single-atomic M-N-C catalysts to enhance the activity of oxygen reduction reaction (ORR). However, the in-depth study of modulation effect is rarely reported for the isolated dual-atomic metal sites. Now, the catalytic activities of Fe-N-4 moiety can be enhanced by the adjacent Pt-N-4 moiety through the modulation effect, in which the Pt-N-4 acts as the modulator to tune the 3d electronic orbitals of Fe-N-4 active site and optimize ORR activity. Inspired by this principle, we design and synthesize the electrocatalyst that comprises isolated Fe-N-4/Pt-N-4 moieties dispersed in the nitrogen-doped carbon matrix (Fe-N-4/Pt-N-4@NC) and exhibits a half-wave potential of 0.93 V vs. RHE and negligible activity degradation (Delta E-1/2 = 8 mV) after 10000 cycles in 0.1 M KOH. We also demonstrate that the modulation effect is not effective for optimizing the ORR performances of Co-N-4/Pt-N-4 and Mn-N-4/Pt-N-4 systems.

Automated summary

The modulation effect can enhance the catalytic activity of Fe-N-4 moiety through adjacent Pt-N-4 moiety, but it is less effective for optimizing the ORR performances of Co-N-4/Pt-N-4 and Mn-N-4/Pt-N-4 systems.