Stéphane Abbet scite author profile

While inert as bulk material, nanoscale gold particles dispersed on oxide supports exhibit a remarkable catalytic activity. Temperature-programmed reaction studies of the catalyzed combustion of CO on size-selected small monodispersed Au n (n ≤ 20) gold clusters supported on magnesia, and first-principle simulations, reveal the microscopic origins of the observed unusual catalytic activity, with Au8 found to be the smallest catalytically active size. Partial electron transfer from the surface to the gold cluster and oxygen-vacancy F-center defects are shown to play an essential role in the activation of nanosize gold clusters as catalysts for the combustion reaction.

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Charging Effects on Bonding and Catalyzed Oxidation of CO on Au ₈ Clusters on MgO

Yoon

Häkkinen

Landman

et al. 2005

Science

1,405

1,165

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Gold octamers (Au8) bound to oxygen-vacancy F-center defects on Mg(001) are the smallest clusters to catalyze the low-temperature oxidation of CO to CO2, whereas clusters deposited on close-to-perfect magnesia surfaces remain chemically inert. Charging of the supported clusters plays a key role in promoting their chemical activity. Infrared measurements of the stretch vibration of CO adsorbed on mass-selected gold octamers soft-landed on MgO(001) with coadsorbed O2 show a red shift on an F-center-rich surface with respect to the perfect surface. The experiments agree with quantum ab initio calculations that predict that a red shift of the C-O vibration should arise via electron back-donation to the CO antibonding orbital.

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Catalytic Oxidation of Carbon Monoxide on Monodispersed Platinum Clusters: Each Atom Counts

et al. 1999

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Nanoclusters open fascinating opportunities for quantum engineering because quantum-size effects become dominant in determining catalytic, − optical, electronic, and magnetic6 properties. We succeeded in the controlled production of low-energy and high-flux monodispersed cluster beams, which allow for a systematic study of their reactivity after deposition onto a chemically inert substrate. We investigated the catalytic reaction that is the oxidation of CO on platinum and observed a distinct atom by atom size dependency for monodispersed platinum clusters on thin MgO(100) films. These results clearly show that the efficiency of a heterogeneous catalytic reaction can be tuned by the judicious choice of particle size.

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Structural, Electronic, and Impurity‐Doping Effects in Nanoscale Chemistry: Supported Gold Nanoclusters

et al. 2003

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A nano gold rush: Nanoscale gold clusters on oxide surfaces exhibit unique catalytic activity (▴; R=chemical reactivity). The factors for these remarkable nanocatalytic properties are 1) structural dynamical fluxionality, 2) quantum size effects, 3) charge transfer from the support to the clusters, and 4) impurity doping effects (▪) that allow control of the electronic structure of small clusters.

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Stéphane Abbet

When Gold Is Not Noble: Nanoscale Gold Catalysts

Charging Effects on Bonding and Catalyzed Oxidation of CO on Au ₈ Clusters on MgO

Catalytic Oxidation of Carbon Monoxide on Monodispersed Platinum Clusters: Each Atom Counts

Structural, Electronic, and Impurity‐Doping Effects in Nanoscale Chemistry: Supported Gold Nanoclusters

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Stéphane Abbet

When Gold Is Not Noble: Nanoscale Gold Catalysts

Charging Effects on Bonding and Catalyzed Oxidation of CO on Au 8 Clusters on MgO

Catalytic Oxidation of Carbon Monoxide on Monodispersed Platinum Clusters: Each Atom Counts

Structural, Electronic, and Impurity‐Doping Effects in Nanoscale Chemistry: Supported Gold Nanoclusters

Contact Info

Product

Resources

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Charging Effects on Bonding and Catalyzed Oxidation of CO on Au ₈ Clusters on MgO