Probing the Influence of the Carbon Support on the Activity of Fe-N3/C Model Active Sites for the Oxygen Reduction Reaction

We report here an investigation of the role that various carbon supports have on a model non-precious metal catalyst for the oxygen reduction reaction (ORR) prepared through a molecularly defined terpyridine moiety covalently embedded onto various high surface area carbons (Black Pearls 2000, Ketjen...

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Veröffentlicht in:	Journal of the Electrochemical Society 2020-05, Vol.167 (8)
Hauptverfasser:	Fruehwald, Holly M., Ebralidze, Iraklii I., Melino, Peter D., Zenkina, Olena V., Easton, E. Bradley
Format:	Artikel
Sprache:	eng
Schlagworte:	Electrocatalysis Fuel Cells - PEM Surface functionalization
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container_title	Journal of the Electrochemical Society
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creator	Fruehwald, Holly M. Ebralidze, Iraklii I. Melino, Peter D. Zenkina, Olena V. Easton, E. Bradley
description	We report here an investigation of the role that various carbon supports have on a model non-precious metal catalyst for the oxygen reduction reaction (ORR) prepared through a molecularly defined terpyridine moiety covalently embedded onto various high surface area carbons (Black Pearls 2000, Ketjen Black 600, Multi-Walled Carbon Nanotubes). A terpyridine modified catalyst has been previously prepared and allowed for the controlled deposition of one specific and unique N3/C active site on the surface of the support. The effect of changing the porosity and surface area of the carbon was analyzed for its oxygen reduction reaction activity and characterized using thermogravimetric analysis, pore size determination, and rotating disk measurements. This system showed that when a more microporous support was used the activity for the oxygen reduction reaction was significantly decreased in acidic media, this could be explained by the differences in the formation and overall accessibility of the active sites on the high surface area supports.
doi_str_mv	10.1149/1945-7111/ab92b9
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title	Probing the Influence of the Carbon Support on the Activity of Fe-N3/C Model Active Sites for the Oxygen Reduction Reaction
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