Enhancement of Oxidation of Formic Acid through Application of Zirconia Matrix for Immobilization of Noble Metal Catalytic Nanoparticles

Enhancement of Oxidation of Formic Acid through Application of Zirconia Matrix for Immobilization of Noble Metal Catalytic Nanoparticles

Electrocatalytic activity of common noble metal (platinum, bimetallic platinum-ruthenium and palladium) nanoparticles (both unsupported and supported on Vulcan carriers) toward electrooxidation of formic acid in acid medium (0.5 mol dm –3 H 2 SO 4 ) can be significantly enhanced by dispersing them o...

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Published in:Russian journal of electrochemistry Vol. 56; no. 10; pp. 832 - 849
Main Authors: Rutkowska, I. A., Krakowka, P., Jarzebska, M., Czarniecki, K., Krech, M., Sobkowicz, K., Zdunek, K., Galus, Z., Kulesza, P. J.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-10-2020
Springer Nature B.V
Subjects:
Acids
Adsorbates
Bimetals
Catalysts
Chemistry
Chemistry and Materials Science
Dissimilar metals
Electrochemistry
Formic acid
Hydroxyl groups
Nanoparticles
Noble metals
Organic chemistry
Oxidation
Palladium
Physical Chemistry
Platinum
Ruthenium
Sulfuric acid
Thin films
Zirconium dioxide
palladium and platinum-ruthenium nanoparticles
electrocatalysis in acid medium
platinum
formic acid oxidation
nanostructured zirconium(IV) oxide
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Abstract Electrocatalytic activity of common noble metal (platinum, bimetallic platinum-ruthenium and palladium) nanoparticles (both unsupported and supported on Vulcan carriers) toward electrooxidation of formic acid in acid medium (0.5 mol dm –3 H 2 SO 4 ) can be significantly enhanced by dispersing them over thin film of zirconia (ZrO 2 ). The enhancement effects concern increases of the electrocatalytic current densities (normalized against the mass of noble metal catalysts) recorded under both cyclic voltammetric and chronoamperometric conditions. The observations can be rationalized in terms of the ability of zirconia nanostructures to provide active hydroxyl groups capable of inducing the removal of the inhibiting COOH or CO type adsorbates from their surfaces. The role of Vulcan carriers is in improving electronic conductivity, in addition to facilitating distribution of catalytic metal sites at the electrocatalytic interface. Regarding dissimilar mechanisms for HCOOH oxidations at Pt, PtRu and Pd nanoparticles, the activating capabilities of zirconia differ depending on the potential applied thus reflecting distinct nature of electronic or chemical interactions. Specific interactions between the zirconia support and noble metal nanoparticles are also possible, particularly in the case of Pd-based catalysts where the enhancement effects are the most pronounced. Finally, it should be emphasized that, historically, representatives of Russian school of electrochemistry, including V.S. Bagotsky, were one of the first world-wide who investigated the formic acid oxidation and emphasized the importance of metal—support interactions during electrooxidation of small organic molecules at noble metal nanoparticles.
AbstractList Electrocatalytic activity of common noble metal (platinum, bimetallic platinum-ruthenium and palladium) nanoparticles (both unsupported and supported on Vulcan carriers) toward electrooxidation of formic acid in acid medium (0.5 mol dm–3 H2SO4) can be significantly enhanced by dispersing them over thin film of zirconia (ZrO2). The enhancement effects concern increases of the electrocatalytic current densities (normalized against the mass of noble metal catalysts) recorded under both cyclic voltammetric and chronoamperometric conditions. The observations can be rationalized in terms of the ability of zirconia nanostructures to provide active hydroxyl groups capable of inducing the removal of the inhibiting COOH or CO type adsorbates from their surfaces. The role of Vulcan carriers is in improving electronic conductivity, in addition to facilitating distribution of catalytic metal sites at the electrocatalytic interface. Regarding dissimilar mechanisms for HCOOH oxidations at Pt, PtRu and Pd nanoparticles, the activating capabilities of zirconia differ depending on the potential applied thus reflecting distinct nature of electronic or chemical interactions. Specific interactions between the zirconia support and noble metal nanoparticles are also possible, particularly in the case of Pd-based catalysts where the enhancement effects are the most pronounced. Finally, it should be emphasized that, historically, representatives of Russian school of electrochemistry, including V.S. Bagotsky, were one of the first world-wide who investigated the formic acid oxidation and emphasized the importance of metal—support interactions during electrooxidation of small organic molecules at noble metal nanoparticles.
Electrocatalytic activity of common noble metal (platinum, bimetallic platinum-ruthenium and palladium) nanoparticles (both unsupported and supported on Vulcan carriers) toward electrooxidation of formic acid in acid medium (0.5 mol dm –3 H 2 SO 4 ) can be significantly enhanced by dispersing them over thin film of zirconia (ZrO 2 ). The enhancement effects concern increases of the electrocatalytic current densities (normalized against the mass of noble metal catalysts) recorded under both cyclic voltammetric and chronoamperometric conditions. The observations can be rationalized in terms of the ability of zirconia nanostructures to provide active hydroxyl groups capable of inducing the removal of the inhibiting COOH or CO type adsorbates from their surfaces. The role of Vulcan carriers is in improving electronic conductivity, in addition to facilitating distribution of catalytic metal sites at the electrocatalytic interface. Regarding dissimilar mechanisms for HCOOH oxidations at Pt, PtRu and Pd nanoparticles, the activating capabilities of zirconia differ depending on the potential applied thus reflecting distinct nature of electronic or chemical interactions. Specific interactions between the zirconia support and noble metal nanoparticles are also possible, particularly in the case of Pd-based catalysts where the enhancement effects are the most pronounced. Finally, it should be emphasized that, historically, representatives of Russian school of electrochemistry, including V.S. Bagotsky, were one of the first world-wide who investigated the formic acid oxidation and emphasized the importance of metal—support interactions during electrooxidation of small organic molecules at noble metal nanoparticles.
Author Czarniecki, K.
Kulesza, P. J.
Zdunek, K.
Galus, Z.
Rutkowska, I. A.
Sobkowicz, K.
Krakowka, P.
Jarzebska, M.
Krech, M.
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  surname: Krakowka
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  surname: Jarzebska
  fullname: Jarzebska, M.
  organization: Faculty of Chemistry, University of Warsaw
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  surname: Czarniecki
  fullname: Czarniecki, K.
  organization: Faculty of Chemistry, University of Warsaw
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  surname: Krech
  fullname: Krech, M.
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  surname: Kulesza
  fullname: Kulesza, P. J.
  email: pkulesza@chem.uw.edu.pl
  organization: Faculty of Chemistry, University of Warsaw
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CitedBy_id crossref_primary_10_1002_solr_202000705
crossref_primary_10_1016_j_electacta_2021_138550
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Keywords palladium and platinum-ruthenium nanoparticles
electrocatalysis in acid medium
platinum
formic acid oxidation
nanostructured zirconium(IV) oxide
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SSID ssj0008719
Score 2.2560205
Snippet Electrocatalytic activity of common noble metal (platinum, bimetallic platinum-ruthenium and palladium) nanoparticles (both unsupported and supported on Vulcan...
SourceID proquest
crossref
springer
SourceType Aggregation Database
Publisher
StartPage 832
SubjectTerms Acids
Adsorbates
Bimetals
Catalysts
Chemistry
Chemistry and Materials Science
Dissimilar metals
Electrochemistry
Formic acid
Hydroxyl groups
Nanoparticles
Noble metals
Organic chemistry
Oxidation
Palladium
Physical Chemistry
Platinum
Ruthenium
Sulfuric acid
Thin films
Zirconium dioxide
Title Enhancement of Oxidation of Formic Acid through Application of Zirconia Matrix for Immobilization of Noble Metal Catalytic Nanoparticles
URI https://link.springer.com/article/10.1134/S1023193520100110
https://www.proquest.com/docview/2473789807
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