Abstract
Exploring durable and highly-active non-noble-metal nanomaterials to supersede Pt-based nanomaterials is an effective way, which can reduce the cost and boost the catalytic efficiency of oxygen reduction reaction (ORR). Herein, we constructed atomically-dispersed Mn atoms on the ZIF-derived nitrogen-doped carbon frameworks (Mn-N(x)/NC) by stepwise pyrolysis. The Mn-N(x)/NC relative to pure nitrogen-doped carbon (NC) exhibited superior electrocatalytic activity with a higher half-wave potential (E (1/2) = 0.88 V) and a modest Tafel slope (90 mV dec(-1)) toward ORR. The enhanced ORR performance of Mn-N(x)/NC may be attributed to the existence of Mn-N(x) active sites, which can more easily adsorb intermediates, promoting the efficiency of ORR. This work provides a facile route to synthesize single-atom catalysts for ORR.