Atomically Resolved Dealloying of Structurally Ordered Pt Nanoalloy as an Oxygen Reduction Reaction Electrocatalyst

Atomically Resolved Dealloying of Structurally Ordered Pt Nanoalloy as an Oxygen Reduction Reaction Electrocatalyst

The positive effect of intermetallic ordering of platinum alloy nanoparticles on oxygen reduction reaction (ORR) activity has been well established. What is still missing is an understanding of selective leaching of the less noble metal from the ordered structure and its correlation to long-term ORR...

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Bibliographic Details
Published in:ACS catalysis Vol. 6; no. 8; pp. 5530 - 5534
Main Authors: Pavlišič, Andraž, Jovanovič, Primož, Šelih, Vid Simon, Šala, Martin, Bele, Marjan, Dražić, Goran, Arčon, Iztok, Hočevar, Samo, Kokalj, Anton, Hodnik, Nejc, Gaberšček, Miran
Format: Journal Article
Language:English
Published: American Chemical Society 05-08-2016
Subjects:
intermetallic ordering
ORR activity
in situ ICP-MS
kinetic Monte Carlo
fuel cells
platinum alloy
dealloying
nanoparticle stability
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Summary:The positive effect of intermetallic ordering of platinum alloy nanoparticles on oxygen reduction reaction (ORR) activity has been well established. What is still missing is an understanding of selective leaching of the less noble metal from the ordered structure and its correlation to long-term ORR performance. Using a combination of kinetic Monte Carlo simulations and advanced characterization techniques, we provide unprecedented insight into dealloying of intermetallic PtCu3 nanoparticlesa well-known binary alloy. Comparison of ordered and disordered samples with identical initial compositions and particle size distributions reveals an unexpected correlation: whereas the copper dealloying rates in the ordered and disordered counterparts are almost the same, in the ordered structure Pt atoms are surrounded by 15–30% more Cu atoms throughout all the stages of acid leaching. This more convenient Pt–Cu coordination explains the statistically significant increase of 23–37% in ORR activity of the ordered structure at all stages of alloy degradation.
ISSN:2155-5435
2155-5435
DOI:10.1021/acscatal.6b00557