The interplay between morphology and electrochemical performance of a new class of "core-shell" electrocatalysts for the oxygen reduction reaction (ORR) is studied. The electrocatalysts, labelled PtNi-CNl Tf /STp, consist of a "core" of pyrolyzed polyketone nanoballs (indicated as STp "core" support) covered by a carbon nitride (CN) "shell" matrix embedding PtNix alloy NPs (indicated as PtNix -CN). The electrocatalysts are characterized by means of: (a) high-resolution transmission electron microscopy (HR-TEM); and (b) cyclic voltammetry with the thin-film rotating ring-disk electrode (CV-TF-RRDE) method. The structure of the STp "core" supports and the details of the preparation procedure, such as pyrolysis temperature, Tf, and treatment with H2O2, play a crucial role on modulating: (a) the morphology; and (b) the ORR performance of the electrocatalysts. In particular, the best results are achieved for PtNi-CNl Tf /STp systems: (a) including a STp "core" support with a high porosity; and (b) obtained at Tf = 600 °C. It is demonstrated that in general, the treatment with H2O2 of electrocatalysts is detrimental for the ORR performance. Nevertheless, in particular conditions, the treatment in H2O2 improves the ORR performance of PtNi-CNl Tf /STp. The results presented in this work allow to elucidate the complex correlation existing between: (a) the composition; (b) the interactions in PtNix -CN; (c) the morphology of STp and PtNi-CNl Tf /STp; and (d) the ORR performance of the electrocatalysts.

Interplay between morphology and electrochemical performance of “core–shell” electrocatalysts for oxygen reduction reaction based on a PtNix carbon nitride “shell” and a pyrolyzed polyketone nanoball “core”

NEGRO, ENRICO;VEZZU', KETI;CAVINATO, GIANNI;DI NOTO, VITO
2014

Abstract

The interplay between morphology and electrochemical performance of a new class of "core-shell" electrocatalysts for the oxygen reduction reaction (ORR) is studied. The electrocatalysts, labelled PtNi-CNl Tf /STp, consist of a "core" of pyrolyzed polyketone nanoballs (indicated as STp "core" support) covered by a carbon nitride (CN) "shell" matrix embedding PtNix alloy NPs (indicated as PtNix -CN). The electrocatalysts are characterized by means of: (a) high-resolution transmission electron microscopy (HR-TEM); and (b) cyclic voltammetry with the thin-film rotating ring-disk electrode (CV-TF-RRDE) method. The structure of the STp "core" supports and the details of the preparation procedure, such as pyrolysis temperature, Tf, and treatment with H2O2, play a crucial role on modulating: (a) the morphology; and (b) the ORR performance of the electrocatalysts. In particular, the best results are achieved for PtNi-CNl Tf /STp systems: (a) including a STp "core" support with a high porosity; and (b) obtained at Tf = 600 °C. It is demonstrated that in general, the treatment with H2O2 of electrocatalysts is detrimental for the ORR performance. Nevertheless, in particular conditions, the treatment in H2O2 improves the ORR performance of PtNi-CNl Tf /STp. The results presented in this work allow to elucidate the complex correlation existing between: (a) the composition; (b) the interactions in PtNix -CN; (c) the morphology of STp and PtNi-CNl Tf /STp; and (d) the ORR performance of the electrocatalysts.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/2685101
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