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Nanostructuring determines poisoning: Tailoring CO adsorption on PtCu bimetallic nanoparticles.

Author

Vega Dominguez, Lorena

García Cardona, Julia

Viñes Solana, Francesc

Cabot Julià, Pere-Lluís

Neyman, Konstantin M.

Publication date

2022-08-25T10:22:25Z

2022-08-25T10:22:25Z

2022-03-11

2022-08-25T10:22:25Z

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Abstract

Here we show, combining CO stripping voltammograms on different PtCu nanoparticle (NP) low-temperature fuel cell electrocatalysts and density functional calculations, that surface chemical ordering and the presence of certain defects explain the CO tolerance vs. poisoning of such systems. The CO withdrawal for these duelling CO-slingers depends on whether they are well-shaped core@shell Cu@Pt NPs, more CO-tolerant, or having Cu-surrounded surface Pt atoms or adatoms/vacancies surface defects, less CO-tolerant. The latter sites are critical on nm-sized PtCu NPs, displaying stronger CO adsorption compared to pure Pt NPs. Avoiding such sites is key when designing less expensive and CO-poisoned Cu@Pt NP-based electrocatalysts.

Document Type

Article

Published version

Language

English

Subjects and keywords

Electrocatàlisi; Teoria del funcional de densitat; Nanopartícules; Electrocatalysis; Density functionals; Nanoparticles

Publisher

Royal Society of Chemistry

Related items

Reproducció del document publicat a: https://doi.org/10.1039/D2MA00196A

Materials Advances, 2022, vol. 3, num. 10, p. 4159-4169

https://doi.org/10.1039/D2MA00196A

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DIDL MARC MARC_CCUC METS OAI_DC ORE QDC RDF

Rights

cc-by (c) Vega Dominguez, Lorena et al., 2022

https://creativecommons.org/licenses/by/4.0/

This item appears in the following Collection(s)

Ciència dels Materials i Química Física [1380]

Institut de Química Teòrica i Computacional (IQTCUB) [213]

ISGlobal - Institut de Salut Global de Barcelona [60793]