Ambient Pressure Photoelectron Spectroscopy: Opportunities in Catalysis from Solids to Liquids and Introducing Time Resolution

Roy, Kanak; Artiglia, Luca; Bokhoven, Jeroen A. van

doi:10.1002/cctc.201701522

Cited by 81 publications

(83 citation statements)

References 189 publications

(334 reference statements)

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“…The zeolite powder samples were dispersed in ethanol and drop‐casted as a thin film on a gold foil (Sigma–Aldrich, purity 99.99 %). The gold foil was mounted to the sample holder of the solid–gas interface endstation, which allows measurements at precise pressures with a flow conditions of gas/gas mixtures . The spectra were recorded at 80 °C and 1 mbar of helium (Messer gas, 99.999 % purity) to minimize the charging of the samples.…”

Section: Methodsmentioning

confidence: 99%

“…The gold foil was mounted to the sample holder of the solid-gas interface endstation, which allows measurements at precise pressures with af low conditions of gas/ gas mixtures. [40,41] The spectra were recorded at 80 8Ca nd 1mbar of helium (Messer gas, 99.999 %p urity) to minimize the charging of the samples. Si 2p and Al 2p photoemission spectra were recorded tuning the excitation energies between 480 to 1210 eV, such that for both elements the photoelectron kinetic energies are 400, 600, 800 and 1100 eV.A fter subtraction of aS hirley background, the spectra were fitted with Voigt shaped peaks.…”

Section: Characterization Methodsmentioning

confidence: 99%

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Variation of Aluminium Distribution in Small‐Sized ZSM‐5 Crystals during Desilication

Roy

Krumeich

et al. 2019

Chemistry A European J

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Hollow ZSM‐5 zeolites of size below one micrometer can be produced by desilication of crystals with aluminium zoning. The parent crystals have a core–shell structure: the core part has nearly no aluminium, whereas the aluminium content in the shell increases when extending to exterior surface. Transmission electron microscopy confirmed the preservation of the crystalline shell after base leaching, but could not identify its subtle change. An increase of the Si/Al ratio of the surface was detected upon leaching the parent material to form the hollow zeolite by using ambient pressure X‐ray photoelectron spectroscopy and infrared spectroscopy of substituted alkylpyridines. 27Al MAS NMR showed that base leaching results in a reduced percentage of distorted tetrahedrally coordinated aluminium. The reprecipitation of dissolved species occurs and tetrahedrally coordinated tin atoms can thus be introduced to the shell framework. Overall, the formation of hollow ZSM‐5 zeolites by desilication involves not only the removal of silicon‐rich core, but also a reduced percentage of exterior aluminium‐related acid sites, which should be considered while using hollow zeolites in acid‐catalyzed reactions.

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Section: Methodsmentioning

confidence: 99%

Section: Characterization Methodsmentioning

confidence: 99%

Variation of Aluminium Distribution in Small‐Sized ZSM‐5 Crystals during Desilication

Roy

Krumeich

et al. 2019

Chemistry A European J

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“…This has allowed the development of ambient‐pressure XPS (APXPS) instrumentations . Synchrotron‐based APXPS further allows for the modulation of the excitation wavelength, which in turn may refine the penetration depth of the probing beam . Using a combined APXPS and theoretical approach, Artyushkova et al .…”

Section: Identification Of Fenx Single Sitesmentioning

confidence: 99%

Homogenous Meets Heterogenous and Electro‐Catalysis: Iron‐Nitrogen Molecular Complexes within Carbon Materials for Catalytic Applications

Nicolae

Qiao

et al. 2019

ChemCatChem

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High activity, selectivity and recyclability are crucial parameters in the design of performant catalysts. Furthermore, depletion of platinum‐group metals (PGM) drives further research towards highly available metal‐based catalysts. In this framework, iron‐based active sites supported on nitrogen‐doped carbon materials (Fe/N@C) have been explored to tackle important applications in organic chemistry, for both oxidation and reduction of C−O/C−N bonds, as well as in electrocatalysis for energy applications. This versatile reactivity makes them ideal substitutes to PGM‐based catalysts, being based on abundant elements. Despite important advances in material science and characterisation techniques allowing the analysis of heterogeneous/electro‐ catalysts at the atomic scale, the nature of the catalytically active sites in Fe/N@C remains elusive. Most recent theoretical studies point at individual FeNx single sites as the origin of the catalytic activity. Although their identification is still challenging with current technology, establishing their real nature will foster further research on these PGM‐free and redox‐polyvalent catalysts. In this review, we provide an overview of their applications in both thermal and electrochemical processes. Throughout the review, we highlight the different characterisation techniques employed to gain insight into the catalyst's active sites.

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“…[41] Soft Xray tools favor UHV,though major progress has been made to allow gas pressures and elevated temperatures to mimic realistic conditions.F or example,t ime-resolved NAP-XPS gained prominence in operando characterization, [42] taking advantage of small dead-volume reaction cells [43] and fast delay line detectors.X RS can probe soft X-ray edges using Raman scattered hard X-rays,a llowing in situ and operando conditions. [41] Soft Xray tools favor UHV,though major progress has been made to allow gas pressures and elevated temperatures to mimic realistic conditions.F or example,t ime-resolved NAP-XPS gained prominence in operando characterization, [42] taking advantage of small dead-volume reaction cells [43] and fast delay line detectors.X RS can probe soft X-ray edges using Raman scattered hard X-rays,a llowing in situ and operando conditions.…”

Section: In Situ and Operando Metrologymentioning

confidence: 99%

“…To probe all layers of complexity in bimetallic nanocatalysts,insitu and operando characterization is essential to capture their structural and electronic properties under relevant conditions.O wing to their penetrative nature,h ard X-rays are powerful tools to monitor nanocatalysts under harsh conditions,w hich resulted in the design of dedicated high-temperature and high-pressure reaction cells. [41] Soft Xray tools favor UHV,though major progress has been made to allow gas pressures and elevated temperatures to mimic realistic conditions.F or example,t ime-resolved NAP-XPS gained prominence in operando characterization, [42] taking advantage of small dead-volume reaction cells [43] and fast delay line detectors.X RS can probe soft X-ray edges using Raman scattered hard X-rays,a llowing in situ and operando conditions.…”

Section: In Situ and Operando Metrologymentioning

confidence: 99%

Formation and Functioning of Bimetallic Nanocatalysts: The Power of X‐ray Probes

et al. 2019

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Bimetallic nanocatalysts are key enablers of current chemical technologies, including car exhaust converters and fuel cells, and play a crucial role in industry to promote a wide range of chemical reactions. However, owing to significant characterization challenges, insights in the dynamic phenomena that shape and change the working state of the catalyst await further refinement. Herein, we discuss the atomic‐scale processes leading to mono‐ and bimetallic nanoparticle formation and highlight the dynamics and kinetics of lifetime changes in bimetallic catalysts with showcase examples for Pt‐based systems. We discuss how in situ and operando X‐ray spectroscopy, scattering, and diffraction can be used as a complementary toolbox to interrogate the working principles of today's and tomorrow's bimetallic nanocatalysts.

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Ambient Pressure Photoelectron Spectroscopy: Opportunities in Catalysis from Solids to Liquids and Introducing Time Resolution

Cited by 81 publications

References 189 publications

Variation of Aluminium Distribution in Small‐Sized ZSM‐5 Crystals during Desilication

Variation of Aluminium Distribution in Small‐Sized ZSM‐5 Crystals during Desilication

Homogenous Meets Heterogenous and Electro‐Catalysis: Iron‐Nitrogen Molecular Complexes within Carbon Materials for Catalytic Applications

Formation and Functioning of Bimetallic Nanocatalysts: The Power of X‐ray Probes

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