In situ X-ray absorption spectroscopy as a unique tool for obtaining information on hydrogen binding sites and electronic structure of supported Pt catalysts: towards an understanding of the compensation relation in alkane hydrogenolysis

Koningsberger, D.C.; Oudenhuijzen, M.K.; Graaf, Joost de; Bokhoven, Jeroen A. van; Ramaker, David E.

doi:10.1016/s0021-9517(02)00135-5

Cited by 79 publications

(94 citation statements)

References 48 publications

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“…A detailed analysis of the kinetic data for neopentane hydrogenolysis as reported by us 10 recently showed that the H coverage directly affected the neopentane-Pt bond strength through the Frumkin isotherm and thereby changed the activation energy for the reaction. Preliminary results for the hydrogenation of benzene and other alkenes catalyzed by Pt on supports with different ionicities show that the change in H coverage may be the most responsible for the observed change in reactivity.…”

Section: Discussionmentioning

confidence: 87%

“…In addition, the inhibition by hydrogen of the hydrogenolysis of alkanes is much stronger for basic supports: the order in H 2 ranges from -2.5 (basic support) to -1.5 (acidic). [10][11][12][13] Although the effect of the support on the catalytic properties of the supported metal particles has been well established, at least for reactions involving H, the nature of this metal-support interaction has been the subject of much debate. Explanations have involved the formation of metal-proton adducts on Brønsted acidic supports, 5,14 electron transfer between support and particle, 4,15,16 the polarization of the metal particle by nearby cations, 17 and a change in the ionization potential of the metal, due to a shift in the d-band density of states.…”

Section: Introductionmentioning

confidence: 99%

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Theoretical Study on Pt Particle Adsorbate Bonding: Influence of Support Ionicity and Implications for Catalysis

et al. 2004

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The influence of the support ionicity on the adsorption of H, CH x (x ) 2, 3), and O on supported Pt particles is investigated using density functional theory (DFT). The DFT calculations reveal that the importance of the 6s,p states for the Pt adsorbate bonding increases in the order Pt-O < Pt-CH 2 < Pt-CH 3 < Pt-H. Both the Pt-H and Pt-O bond strengths are strongly affected by changes in the support ionicity whereas the difference for the Pt-CH x bond strength is much smaller. The Pt-H bond strength is higher for ionic supports, whereas the Pt-O bond strength is higher for acidic or more covalent supports. These bond strength changes occur because the support ionicity has a large impact on both the Pt 6s,p and 5d states. On ionic supports with electron rich oxygen atoms, the 6s,p states are pushed toward the surface of a metal cluster where it can participate in H bonding, whereas on supports with electron poor oxygen atoms (existing in acidic supports or for supports with more covalent cations) the 6s,p states are attracted toward the metal-support interface. The Pt 5d states shift to lower binding energy (lower ionization potential) on ionic supports, where it bonds less effectively with the O adsorbate. These findings indicate that the hydrogen and oxygen coverage on Pt particles are strongly determined by the ionicity and acid/base properties of the support and therefore may be the most important for producing changes in the reactivity of Pt wit support ionicity in various hydrogenolysis, hydrogenation, and oxidation reactions.

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Section: Discussionmentioning

confidence: 87%

Section: Introductionmentioning

confidence: 99%

Theoretical Study on Pt Particle Adsorbate Bonding: Influence of Support Ionicity and Implications for Catalysis

et al. 2004

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“…Since the reactants are always the same molecules, the changes in the chemisorption strengths must be caused by changes in the electronic properties of the supported Pt particles. This is discussed in more detail in an other paper [39].…”

Section: Compensation Phenomenamentioning

confidence: 87%

Support-induced compensation effects in H/D exchange of cyclopentane

Oudenhuijzen¹,

Bokhoven²,

Koningsberger³

2003

Journal of Catalysis

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The exchange of hydrogen for deuterium (H/D exchange) in cyclopentane was measured for Pt catalysts with supports of various acidity. With an earlier developed Monte-Carlo model the contributions of the various possible intermediates in the H/D exchange can directly be measured. It was shown that the activity and the selectivity in the H/D exchange over the supported Pt catalysts strongly depend on the support acid/base properties. The activities of the various catalysts show a compensation effect. The compensation effect can directly be correlated to the contribution of the various exchange mechanisms, which proceed via different intermediates. The contribution of each intermediate depends on the electronic properties of the Pt particles, which in turn depend on the support acidity. This shows that the compensation effect is caused by support-induced changes in the adsorption modes of cyclopentane.

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“…These interactions play a key role in the final properties of the metallic active sites, controlling morphology, electronic properties and finally overall catalytic performances [19][20][21].…”

Section: Introductionmentioning

confidence: 99%

Synthesis of highly dispersed palladium alumina supported particles: Influence of the particle surface density on physico-chemical properties

Benkhaled

Morin

Pichon

et al. 2006

Applied Catalysis A: General

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Complexation with nitrite ions in aqueous medium was used to prepare highly dispersed Pd8 particles supported on alumina. It has been possible to obtain catalysts with different Pd loading keeping the particle size lower than 1 nm as shown by HRTEM, chemisorption, or extended X-ray absorption fine structure (EXAFS) characterizations, and as a consequence with different particle surface density. We observed that electronic properties measured by IR(CO) or X-ray photoelectron spectroscopy (XPS) measurements are strongly influenced by this last parameter and that the origin of these variations can be related to the different strengths of the interactions of the palladium precursor with the alumina surface sites as shown by low temperature CO adsorption followed by FTIR spectroscopy. On increasing Pd loading, saturation of unsaturated Lewis surface sites follows their acid strength: the more acidic ones are the first to react as germination sites, followed by the medium and finally the weaker sites. These different interactions may explain the variation of electronic properties of such small reduced particles which appears to be very sensitive to the chemical nature of their initial germination site on the oxide support. On the other hand, no such effects were observed on changing the type of alumina (d or g) support, in agreement with the principle of the synthesis method which tends to limit strong interaction with the support. Comparison with Pd8 particles with the same particle size and particle surface density but prepared with the well known grafting of acetylacetonate precursor shows marked differences in terms of electronic properties followed by CO FTIR. This result illustrates the possibility to prepare highly dispersed Pd particles with different physico-chemical properties. #

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In situ X-ray absorption spectroscopy as a unique tool for obtaining information on hydrogen binding sites and electronic structure of supported Pt catalysts: towards an understanding of the compensation relation in alkane hydrogenolysis

Cited by 79 publications

References 48 publications

Theoretical Study on Pt Particle Adsorbate Bonding: Influence of Support Ionicity and Implications for Catalysis

Theoretical Study on Pt Particle Adsorbate Bonding: Influence of Support Ionicity and Implications for Catalysis

Support-induced compensation effects in H/D exchange of cyclopentane

Synthesis of highly dispersed palladium alumina supported particles: Influence of the particle surface density on physico-chemical properties

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