We
herein report that sulfur and nitrogen co-doped hollow spherical
carbon particles can be applied to oxygen reduction reaction (ORR)
electrocatalysts prepared by calcination of polydopamine (PDA) hollow
particles. The hollow structure of PDA was formed by auto-oxidative
interfacial polymerization of dopamine at the oil and water interface
of emulsion microdroplets. The PDA was used as the nitrogen source
as well as a platform for sulfur-doping. The obtained sulfur and nitrogen
co-doped hollow particles showed a higher catalytic activity than
that of nonsulfur-doped particles and nonhollow particles. The high
ORR activity of the calcined S-doped PDA hollow particles could be
attributed to the combination of nitrogen and sulfur active sites
and the large surface areas owing to a hollow spherical structure.
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