“Metal-free” electrocatalysis: Quaternary-doped graphene and the alkaline oxygen reduction reaction

[Display omitted] •A novel metal-free catalyst of graphene doped with B,N,P, and S is reported for the alkaline oxygen reduction reaction.•The quaternary-doped graphene is more catalytic than single-doped analogs, reducing peroxide formation from >40% to 15%.•Unlike Pt/C catalysts, the quaternary...

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Bibliographic Details
Published inApplied catalysis. A, General Vol. 553; pp. 107 - 116
Main Authors Molina-García, Miguel A., Rees, Neil V.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 05.03.2018
Elsevier Science SA
Subjects
Catalysis
Catalysts
Catalytic activity
Chemical synthesis
Doped-graphene
Electrocatalysis
Electron transfer
Fuel cells
Graphene
Metal-free catalyst
Methanol
Nitrogen
Oxygen
Oxygen reduction reaction
Oxygen reduction reactions
Phosphorus
Pyrolysis
Rotating-ring disk electrode
Metal-free catalyst
Doped-graphene
Rotating-ring disk electrode
Oxygen reduction reaction
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Summary:[Display omitted] •A novel metal-free catalyst of graphene doped with B,N,P, and S is reported for the alkaline oxygen reduction reaction.•The quaternary-doped graphene is more catalytic than single-doped analogs, reducing peroxide formation from >40% to 15%.•Unlike Pt/C catalysts, the quaternary-doped graphene is immune to the presence of MeOH, so is a good candidate for DMFCs. We report the first investigation into a quaternary-doped graphene catalyst material for the oxygen reduction reaction (ORR) under alkaline conditions. The material was synthesized via direct pyrolysis of graphene oxide (GO) with boron, nitrogen, phosphorus and sulfur precursors. The resulting BNPS-Gr catalyst was thoroughly characterized and its composition found via XPS to be 6.4% (B), 6.1% (N), 2.6% (P) and 0.5% (S), while HR-TEM imaging shows a few-layered graphene structure. Electrochemical investigations into the catalytic activity towards the ORR show improved performance of the quaternary-doped graphene with the effective number of electrons transferred being ca. 3.7, compared to single-doped graphenes (2.9–3.2) and significantly lower peroxide production. This demonstrates BNPS-Gr to be a promising alternative to current Pt-group catalysts for the ORR, especially in methanol-fuelled fuel cells, where the presence of methanol in the cathode side from the fuel crossover is shown not to affect the performance of the quaternary-doped graphene catalyst.
ISSN:0926-860X
1873-3875
DOI:10.1016/j.apcata.2017.12.014