Boosting Oxygen Reduction Catalysis with N-doped Carbon Coated CoS Microtubes.

Herein, nitrogen-doped carbon coated hollow CoS microtubes (CoS@N-C microtubes) are prepared through a facile solvothermal procedure, followed by dopamine polymerization process together with a post-pyrolysis which present excellent electrocatalytic activity for oxygen reduction reaction (ORR). The CoS within the hollow CoS@N-C microtubes presents a well-defined single-crystal structure with dominated (022) plane. To obtain desired electrocatalyst, the annealing temperature and the thickness of carbon layer tuned by changing the dopamine concentration are optimized systematically. The electrochemical results demonstrate that the coordination of the N-doped carbon layer, exposed (022) plane, and hollow architecture of CoS microtubes calcined at 700 °C affords outstanding ORR performance to CoS@N-C microtubes. The moderate thickness of the carbon layer is crucial for improving ORR activity of CoS@N-C microtubes, while increasing or decreasing the thickness would result in activity decrease. More importantly, the N-doped carbon layer can protect inner CoS from undergoing aggregation and dissolution effectively during the ORR, resulting in excellent electrocatalytic stability.