Metal Particle Size in Ni/SiO<sub>2</sub> Materials Prepared by Deposition−Precipitation:  Influence of the Nature of the Ni(II) Phase and of Its Interaction with the Support

Burattin, P.; Che, Michel; Louis, Catherine

doi:10.1021/jp990115t

Cited by 140 publications

(118 citation statements)

References 33 publications

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“…These values are comparable with those reported in the literature for supported Ni catalysts that were prepared using the same preparation technique [37,38].…”

Section: Preparation Characterization and Catalytic Performancesupporting

confidence: 90%

“…In Figure 2, the values obtained from Equation (1) distribution and a Ni dispersion of 21%. These values are comparable with those reported in the literature for supported Ni catalysts that were prepared using the same preparation technique [37,38]. As an additional characterization tool, temperature programmed reduction (TPR) experiments were used, which showed H2 consumption in a small temperature range (peak maximum at 565 °C, cf.…”

Section: Preparation Characterization and Catalytic Performancesupporting

confidence: 85%

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Surface Oxidation of Supported Ni Particles and Its Impact on the Catalytic Performance during Dynamically Operated Methanation of CO2

et al. 2017

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Abstract:The methanation of CO 2 within the power-to-gas concept was investigated under fluctuating reaction conditions to gather detailed insight into the structural dynamics of the catalyst. A 10 wt % Ni/Al 2 O 3 catalyst with uniform 3.7 nm metal particles and a dispersion of 21% suitable to investigate structural changes also in a surface-sensitive way was prepared and characterized in detail. Operando quick-scanning X-ray absorption spectroscopy (XAS/QEXAFS) studies were performed to analyze the influence of 30 s and 300 s H 2 interruptions during the methanation of CO 2 in the presence of O 2 impurities (technical CO 2 ). These conditions represent the fluctuating supply of H 2 from renewable energies for the decentralized methanation. Short-term H 2 interruptions led to oxidation of the most reactive low-coordinated metallic Ni sites, which could not be re-reduced fully during the subsequent methanation cycle and accordingly caused deactivation. Detailed evaluation of the extended X-ray absorption fine structure (EXAFS) spectra showed surface oxidation/reduction processes, whereas the core of the Ni particles remained reduced. The 300-s H 2 interruptions resulted in bulk oxidation already after the first cycle and a more pronounced deactivation. These results clearly show the importance and opportunities of investigating the structural dynamics of catalysts to identify their mechanism, especially in power-to-chemicals processes using renewable H 2 .

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“…These values are comparable with those reported in the literature for supported Ni catalysts that were prepared using the same preparation technique [37,38].…”

Section: Preparation Characterization and Catalytic Performancesupporting

confidence: 90%

Section: Preparation Characterization and Catalytic Performancesupporting

confidence: 85%

Surface Oxidation of Supported Ni Particles and Its Impact on the Catalytic Performance during Dynamically Operated Methanation of CO2

et al. 2017

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“…These results indicate that the surfactant removal process and the prevention of the re-oxidation of small metallic Co clusters during this process are essential to form small supported Co metal clusters via colloidal methods. Homogeneous deposition-precipitation (HDP) techniques provide another approach to synthesize high loadings of dispersed metal oxide clusters on supports [45,46]. This method allows the deposition of a soluble metal salt exclusively onto a support surface via gradual and homogeneous introduction of a precipitation agent, for example, hydroxyl ions, to prevent the nucleation of the precursor away from surfaces in the homogeneous phase.…”

Section: Effect Of Preparation Methods On Cobalt Supported Catalystsmentioning

confidence: 99%

Design, Synthesis, and Mechanistic Evaluation of Iron-Based Catalysis for Synthesis Gas Conversion to Fuels and Chemicals

Iglesia¹,

Ishikawa²,

Ojeda³

et al. 2007

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“…With silica, the extensive work by Louis and co-workers [18,19] has proven that a mixed compound of support and metal hydroxide is formed under most circumstances. This mixed compound displays a lower solubility of nickel than bulk nickel hydroxide thus providing a thermodynamic driving force for selective precipitation onto the oxidic support material.…”

Section: Preparation Of Supported Metal Catalystsmentioning

confidence: 99%

Support Materials and Characterization Tools for Nanostructured Catalysts

Jong¹

2006

Oil & Gas Science and Technology - Rev. IFP

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Résumé -Matériaux de support et outils de caractérisation des catalyseurs nanostructurés -Les matériaux de support nanostructurés considérés dans ce travail permettent de faciliter la recherche fondamentale en catalyse hétérogène. Des cas d'étude sont présentés, en particulier des catalyseurs d'hydrogénation à base de métaux supportés sur des nanofibres de carbone. La tomographie électronique s'avère être un outil de caractérisation important pour l'imagerie en trois dimensions de catalyseurs nanostructurés, avec une résolution nanométrique.Abstract -Support Materials and Characterization Tools for Nanostructured CatalystsNanostructured support materials are considered in this work as a means to facilitate fundamental research in heterogeneous catalysis. Case studies are presented, in particular carbon nanofiber supported metal catalysts for hydrogenation catalysis. Electron tomography is shown to be an important characterization tool to image nanostructured catalyst in three dimensions with nanometer resolution.Research Advances in Rational Design of Catalysts and Sorbents Avancées de la recherche dans la conception rationnelle de catalyseurs et d'adsorbants

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Metal Particle Size in Ni/SiO₂ Materials Prepared by Deposition−Precipitation: Influence of the Nature of the Ni(II) Phase and of Its Interaction with the Support

Cited by 140 publications

References 33 publications

Surface Oxidation of Supported Ni Particles and Its Impact on the Catalytic Performance during Dynamically Operated Methanation of CO2

Surface Oxidation of Supported Ni Particles and Its Impact on the Catalytic Performance during Dynamically Operated Methanation of CO2

Design, Synthesis, and Mechanistic Evaluation of Iron-Based Catalysis for Synthesis Gas Conversion to Fuels and Chemicals

Support Materials and Characterization Tools for Nanostructured Catalysts

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Metal Particle Size in Ni/SiO2 Materials Prepared by Deposition−Precipitation: Influence of the Nature of the Ni(II) Phase and of Its Interaction with the Support

Cited by 140 publications

References 33 publications

Surface Oxidation of Supported Ni Particles and Its Impact on the Catalytic Performance during Dynamically Operated Methanation of CO2

Surface Oxidation of Supported Ni Particles and Its Impact on the Catalytic Performance during Dynamically Operated Methanation of CO2

Design, Synthesis, and Mechanistic Evaluation of Iron-Based Catalysis for Synthesis Gas Conversion to Fuels and Chemicals

Support Materials and Characterization Tools for Nanostructured Catalysts

Contact Info

Product

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Metal Particle Size in Ni/SiO₂ Materials Prepared by Deposition−Precipitation: Influence of the Nature of the Ni(II) Phase and of Its Interaction with the Support