O3 titration for synthesis of Pt-Pd core-shell structural catalyst and its catalytic performance on C-H bond activation

A novelty catalyst synthesis method is introduced in this investigation, which employs O3 pulse to induce a segregation of Pd-Pt species to synthesize Pt-Pd core shell structural catalyst. In Pt-Pd alloy, O3 releases highly active oxygen (O*) species (O3→O2 + O·), which combine with Pd species or Pt...

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Published in:Applied catalysis. A, General General, 2022-02, Vol.631, p.118487, Article 118487
Main Authors: Geng, Haojie, Li, Zhuwan, Li, Dongwei, Zhang, Hao, Wu, Xinyu, Zhang, Li
Format: Article
Language:English
Subjects:
Alkanes
C-H bond activation
Catalysts
Chemical synthesis
Core-shell structure
Hydrogen bonds
Oxygen
Oxygen titration
Palladium
Palladium base alloys
Platinum
Pt-Pd bimetallic catalyst
Segregation
Shells
Titration
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cited_by cdi_FETCH-LOGICAL-c334t-40809444254f42e7146ded0f2614feb2593ce4576fe306ee948f81c7d67401d73
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container_start_page 118487
container_title Applied catalysis. A, General
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creator Geng, Haojie
Li, Zhuwan
Li, Dongwei
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Zhang, Li
description A novelty catalyst synthesis method is introduced in this investigation, which employs O3 pulse to induce a segregation of Pd-Pt species to synthesize Pt-Pd core shell structural catalyst. In Pt-Pd alloy, O3 releases highly active oxygen (O*) species (O3→O2 + O·), which combine with Pd species or Pt species selectively. This combination induces a relative migration between Pd and Pt atoms, forming Pt-core@PdO-shell structural catalyst, which meets the thermodynamic stability of Pt-Pd alloy. Core shell structural catalyst displays a better catalytic performance for C-H bond activation. Experimental results indicate core-shell structural catalyst produces more highly active oxygen species than alloy catalyst does. These highly active oxygen species activate C-H bond in alkanes, contributing to a higher catalytic reactivity. In addition, the interaction between Pt-core and PdO-shell lowers the binding energy of ionic Pd species, which facilitates the release of reactive oxygen species. [Display omitted] •Highly active oxygen induces the element segregation of Pd and Pt species.•Oxygen selective combination promotes the relative migration between Pd and Pt species.•Core shell structural catalyst produces more highly active reaction intermediates.•Core shell structural catalyst displays a better catalytic performance for C-H bond activation.
doi_str_mv 10.1016/j.apcata.2022.118487
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subjects Alkanes
C-H bond activation
Catalysts
Chemical synthesis
Core-shell structure
Hydrogen bonds
Oxygen
Oxygen titration
Palladium
Palladium base alloys
Platinum
Pt-Pd bimetallic catalyst
Segregation
Shells
Titration
title O3 titration for synthesis of Pt-Pd core-shell structural catalyst and its catalytic performance on C-H bond activation
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