Abstract
The performance of oxygen reduction reaction (ORR) on Fe-N-C single-atom catalysts (SACs) is still less satisfactory due to the rather low atom-utilization of active sites. Here, a novel acetate thermolysis-assisted route is proposed to create hierarchical carbon nanocages of Fe-N-C SACs (FesA~N/Cs-OAc)by selective cleavage of carbon layers, which features abundant edge-sited Fe-N4 moieties in well-defined mesoporous channels. Benefiting from the ultra-high site density and utilization of Fe-N4 moieties, the optimized Fe_(SA)-N/Cs-OAc catalyst demonstrates excellent ORR activities marked by extraordinarily high half-wave potentials (E_(1/2)) of 0.94 V and 0.82 V in alkaline and acidic electrolytes. Zn-air battery using Fe_(SA)-N/Cs-OAc as cathode delivers a power density of 165 mW cm~(-2), and the maximum output power in H2-O2 fuel cell reaches 640 mW cm~(-2). The abundant mesoporosity makes most Fe-N4 sites accessible and simultaneously produces in-plane pore defects that reduced adsorption energy of *OH (-0.72 eV), finally presenting remarkably enhanced ORR performance.
NSTL