Mechanistic Insight into Sulfide-Enhanced Oxygen Reduction
Reaction Activity and Stability of Commercial Pt Black: An in Situ
Raman Spectroscopic Study
Yan-Yan Wang
De-Jun Chen
YuYe J. Tong
10.1021/acscatal.6b00907.s001
https://acs.figshare.com/articles/journal_contribution/Mechanistic_Insight_into_Sulfide-Enhanced_Oxygen_Reduction_Reaction_Activity_and_Stability_of_Commercial_Pt_Black_An_in_Situ_Raman_Spectroscopic_Study/3469478
Adsorption
of sulfur-containing species on a catalyst surface has
long been treated as an unwelcoming process in catalysis because it
is frequently related to poisoning of the catalyst. However, we reported
recently that sulfide adsorption of moderate coverage on commercial
carbon-supported Pt electrocatalyst could substantially enhance the
oxygen reduction reaction (ORR). Herein, we not only reproduced the
sulfide-adsorption-enhanced ORR on a different type of commercial
Pt electrocatalyst, Pt black, but we also discovered that the sulfide
adsorption enhanced the stability of the Pt black as well. In situ
surface-enhanced Raman spectroscopic (SERS) studies of a roughened
Pt surface in a flow cell strongly suggest that the enhanced ORR activity
and stability was most likely due to the fact that the sulfide adsorption
made the Pt surface more oxidation resistant.
2016-06-22 00:00:00
Commercial Pt Black
Situ Raman Spectroscopic Study Adsorption
SERS
sulfide adsorption
Pt surface
oxygen reduction reaction
ORR