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Autores principales: Sanij, Fereshteh Dehghani, Latyshev, Vitalii, Vorobiov, Serhii, You, Hoydoo, Volavka, Dominik, Samuely, Tomas, Komanicky, Vladimir
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2401.03839
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author Sanij, Fereshteh Dehghani
Latyshev, Vitalii
Vorobiov, Serhii
You, Hoydoo
Volavka, Dominik
Samuely, Tomas
Komanicky, Vladimir
author_facet Sanij, Fereshteh Dehghani
Latyshev, Vitalii
Vorobiov, Serhii
You, Hoydoo
Volavka, Dominik
Samuely, Tomas
Komanicky, Vladimir
contents Devising effective platinum (Pt)-free nanomaterials for catalyzing oxygen reduction reaction (ORR) is desired, but some main drawbacks still exist for commercial implementation in fuel cell systems. Herein, we present the preparation of gold (Au)-modified palladium (Pd) thin films with various thicknesses of Au using magnetron sputtering deposition. It is found that the prepared Au-modified Pd (Au/Pd) thin films with some desirable characteristics such as large electrochemical surface area (ECSA), improved electron transfer, along with high catalytical active positions reveal markedly boosted electro-catalytic activity and stability for oxygen reduction in acidic environments compared with pure Pd catalyst. Noticeably, the as-deposited Au/Pd thin films exhibit a connection in oxygen reduction ability as a function of Au thickness, with the 0.16 nm Au/Pd thin film being the best ORR sample. Significantly, 0.16 nm Au/Pd material demonstrates superior stability after 1000 potential cycles in comparison with the 0.16 nm Pt/Pd owing to the influence of Au modification as well as its structurally stable surfaces.
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id arxiv_https___arxiv_org_abs_2401_03839
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Preparation of gold-modified palladium thin films as efficient catalysts for oxygen reduction reaction
Sanij, Fereshteh Dehghani
Latyshev, Vitalii
Vorobiov, Serhii
You, Hoydoo
Volavka, Dominik
Samuely, Tomas
Komanicky, Vladimir
Materials Science
Devising effective platinum (Pt)-free nanomaterials for catalyzing oxygen reduction reaction (ORR) is desired, but some main drawbacks still exist for commercial implementation in fuel cell systems. Herein, we present the preparation of gold (Au)-modified palladium (Pd) thin films with various thicknesses of Au using magnetron sputtering deposition. It is found that the prepared Au-modified Pd (Au/Pd) thin films with some desirable characteristics such as large electrochemical surface area (ECSA), improved electron transfer, along with high catalytical active positions reveal markedly boosted electro-catalytic activity and stability for oxygen reduction in acidic environments compared with pure Pd catalyst. Noticeably, the as-deposited Au/Pd thin films exhibit a connection in oxygen reduction ability as a function of Au thickness, with the 0.16 nm Au/Pd thin film being the best ORR sample. Significantly, 0.16 nm Au/Pd material demonstrates superior stability after 1000 potential cycles in comparison with the 0.16 nm Pt/Pd owing to the influence of Au modification as well as its structurally stable surfaces.
title Preparation of gold-modified palladium thin films as efficient catalysts for oxygen reduction reaction
topic Materials Science
url https://arxiv.org/abs/2401.03839