Density Functional Studies of Methanol Decomposition on Subnanometer Pd Clusters

Mehmood, Faisal; Greeley, Jeffrey; Curtiss, Larry A.

doi:10.1021/jp907772c

Cited by 35 publications

(77 citation statements)

References 62 publications

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“…Previously, the reaction mechanisms of CH 3 OH dissociation with the C-H, O-H, or C-O bond on the surfaces have been investigated theoretically and experimentally [6,[9][10][11][12][13]. In the present work, we perform only the configuration of site A as initial state (IS A ) to calculate mechanism for CH 3 OH dissociation on 2Cu/ZnO (1010) [25], CuCl(111) [1], and Au(111) [4] surfaces.…”

Section: Methanol Dissociationmentioning

confidence: 99%

“…Many previous experiment and calculation investigations of CH 3 OH dissociation on the surfaces suggested that the O-H scission was proposed as the initial dissociation step [4,10], C-H scission was more favorable than O-H scission [11,12], and the C-O scission suggested to be impossible one for both experimental and theoretical studies [9,11,[13][14][15]. However, CH 3 OH dissociation through three routes of bond scission on 2Cu/ZnO   0 1 10 surface in this present works is not still found.…”

mentioning

confidence: 99%

“…In addition, it is proven that a catalyst surface with high Cu atom is dispersed on metal oxide surface which it gives higher a conversion and selectivity [10,13,16]. As a result, the target catalyst of 2Cu/ZnO   0 1 10 surface model in which 2Cu supported over ZnO   0 1 10 using well for water gas shift reaction have been studied in our previous works [15].…”

mentioning

confidence: 99%

“…The powerful tool of theoretical techniques to understand catalytic reactions on the surface has been known as the density functional theory (DFT) and self-consistent periodic calculations [1,2,13,17,18]. Thus, we employed here to investigate the CH 3 OH adsorption and dissociation on 2Cu/ZnO (1010) catalyst surface.…”

mentioning

confidence: 99%

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DENSITY FUNCTIONAL THEORY STUDY OF METHANOL ADSORPTION AND DISSOCIATION ON 2Cu/ZnO CATALYST SURFACE

Cong¹

2018

JST

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The adsorption and dissociation of methanol (CH3OH) on the cluster with two copper atoms (2Cu) supported over ZnO catalyst surface were investigated using the density functional theory (DFT). The performance of 2Cu adsorbed on ZnOsurface to obtain model of the 2Cu/ZnO catalyst surface. The most stable site of CH3OH with configuration and energy of adsorption was investigated. The reaction pathway of CH3OH dissociation via bond scission of the O–H, C–H and C–O to form methoxide, hydroxymethyl and methyl was examined, respectively. The obtained calculations pointed out that O–H bond scission is found to be the most favorable pathway on 2Cu/ZnO catalyst surface.

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Section: Methanol Dissociationmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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DENSITY FUNCTIONAL THEORY STUDY OF METHANOL ADSORPTION AND DISSOCIATION ON 2Cu/ZnO CATALYST SURFACE

Cong¹

2018

JST

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“…[80,81] Theoretischen Voraussagen zufolge ist auch die Methanoloxidation auf subnanometergroßen Palladiumclustern energetisch dann günstiger, wenn die Reaktion mit einer C-H-statt mit einer O-H-Bindungsspaltung beginnt. [82] Im Laufe der letzten drei Jahrzehnte wurden viele Gasphasenexperimenten zur mechanistischen Untersuchung der CH 3 OH!CH 2 [86] Beispiele von Gasphasenexperimenten, in denen die Oxidation von Methanol eindeutig mit der Aktivierung einer C-H-Bindung beginnt, sind eher selten. Die Reaktion von Mn(CO) 3 À mit Methanol stellt eine dieser Ausnahmen dar, bei der im ersten Schritt eine C-H-Bindungsaktivierung des Substrats stattfindet; dieser Schritt ist auch geschwindigkeitsbestimmend.…”

Section: Der Erste Schritt: Spaltung Der Starken O-h-oder Der Schwächunclassified

Chemie mit Methan: Studieren geht über Probieren!

Schwarz

2011

Angewandte Chemie

170

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Konzeptionelle Überlegungen zu und mechanistische Aspekte von vier scheinbar einfachen chemischen Umsetzungen, die in der Chemie von Methan von Bedeutung sind, werden in diesem Aufsatz behandelt: 1) die metallvermittelte Dehydrierung unter Bildung von Metallcarbenkomplexen, 2) die Wasserstoffabstraktion als Schlüsselschritt der oxidativen Dimerisierung von Methan, 3) der Mechanismus der CH4→CH3OH‐Umwandlung, und 4) die Reihenfolge der C‐H‐ und O‐H‐Bindungsaktivierung und die Frage nach dem geschwindigkeitsbestimmenden Schritt in der selektiven Oxidation von Methanol zu Formaldehyd. Moderne Gasphasenexperimente, in Verbindung mit Elektronenstrukturrechnungen, liefern Einblicke in elementare Reaktionsschritte auf molekularer Ebene und enthüllen reaktionsmechanistische Details. Die Ergebnisse dieser Untersuchungen werden, wo dies angebracht erscheint, mit Beobachtungen aus entsprechenden Studien in Lösung oder auf Oberflächen verglichen.

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Chemistry with Methane: Concepts Rather than Recipes

2011

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Four seemingly simple transformations related to the chemistry of methane will be addressed from mechanistic and conceptual points of view: 1) metal-mediated dehydrogenation to form metal carbene complexes, 2) the hydrogen-atom abstraction step in the oxidative dimerization of methane, 3) the mechanisms of the CH(4)→CH(3)OH conversion, and 4) the initial bond scission (C-H vs. O-H) as well as the rate-limiting step in the selective CH(3)OH→CH(2)O oxidation. State-of-the-art gas-phase experiments, in conjunction with electronic-structure calculations, permit identification of the elementary reactions at a molecular level and thus allow us to unravel detailed mechanistic aspects. Where appropriate, these results are compared with findings from related studies in solution or on surfaces.

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Density Functional Studies of Methanol Decomposition on Subnanometer Pd Clusters

Cited by 35 publications

References 62 publications

DENSITY FUNCTIONAL THEORY STUDY OF METHANOL ADSORPTION AND DISSOCIATION ON 2Cu/ZnO CATALYST SURFACE

DENSITY FUNCTIONAL THEORY STUDY OF METHANOL ADSORPTION AND DISSOCIATION ON 2Cu/ZnO CATALYST SURFACE

Chemie mit Methan: Studieren geht über Probieren!

Chemistry with Methane: Concepts Rather than Recipes

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