Andrew A. Herzing scite author profile

The oxidation of alcohols to aldehydes with O2 in place of stoichiometric oxygen donors is a crucial process for the synthesis of fine chemicals. However, the catalysts that have been identified so far are relatively inactive with primary alkyl alcohols. We showed that Au/Pd-TiO2 catalysts give very high turnover frequencies (up to 270,000 turnovers per hour) for the oxidation of alcohols, including primary alkyl alcohols. The addition of Au to Pd nanocrystals improved the overall selectivity and, using scanning transmission electron microscopy combined with x-ray photoelectron spectroscopy, we showed that the Au-Pd nanocrystals were made up of a Au-rich core with a Pd-rich shell, indicating that the Au electronically influences the catalytic properties of Pd.

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Identification of Active Gold Nanoclusters on Iron Oxide Supports for CO Oxidation

Herzing

Kiely

Carley

et al. 2008

Science

1,459

1,206

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Gold nanocrystals absorbed on metal oxides have exceptional properties in oxidation catalysis, including the oxidation of carbon monoxide at ambient temperatures, but the identification of the active catalytic gold species among the many present on real catalysts is challenging. We have used aberration-corrected scanning transmission electron microscopy to analyze several iron oxide-supported catalyst samples, ranging from those with little or no activity to others with high activities. High catalytic activity for carbon monoxide oxidation is correlated with the presence of bilayer clusters that are approximately 0.5 nanometer in diameter and contain only approximately 10 gold atoms. The activity of these bilayer clusters is consistent with that demonstrated previously with the use of model catalyst systems.

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Switching Off Hydrogen Peroxide Hydrogenation in the Direct Synthesis Process

Edwards

Solsona

et al. 2009

Science

778

779

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Hydrogen peroxide (H2O2) is an important disinfectant and bleach and is currently manufactured from an indirect process involving sequential hydrogenation/oxidation of anthaquinones. However, a direct process in which H2 and O2 are reacted would be preferable. Unfortunately, catalysts for the direct synthesis of H2O2 are also effective for its subsequent decomposition, and this has limited their development. We show that acid pretreatment of a carbon support for gold-palladium alloy catalysts switches off the decomposition of H2O2. This treatment decreases the size of the alloy nanoparticles, and these smaller nanoparticles presumably decorate and inhibit the sites for the decomposition reaction. Hence, when used in the direct synthesis of H2O2, the acid-pretreated catalysts give high yields of H2O2 with hydrogen selectivities greater than 95%.

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Electron Vortex Beams with High Quanta of Orbital Angular Momentum

McMorran

Agrawal

Anderson

et al. 2011

Science

545

527

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Electron beams with helical wavefronts carrying orbital angular momentum are expected to provide new capabilities for electron microscopy and other applications. We used nanofabricated diffraction holograms in an electron microscope to produce multiple electron vortex beams with well-defined topological charge. Beams carrying quantized amounts of orbital angular momentum (up to 100ħ) per electron were observed. We describe how the electrons can exhibit such orbital motion in free space in the absence of any confining potential or external field, and discuss how these beams can be applied to improved electron microscopy of magnetic and biological specimens.

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Direct synthesis of hydrogen peroxide from H2 and O2 using TiO2-supported Au–Pd catalysts

Edwards

Solsona

Landon

et al. 2005

Journal of Catalysis

495

442

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Molecular Order in High-Efficiency Polymer/Fullerene Bulk Heterojunction Solar Cells

et al. 2011

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We report quantitative measurements of ordering, molecular orientation, and nanoscale morphology in the active layer of bulk heterojunction (BHJ) organic photovoltaic cells based on a thieno[3,4-b]thiophene-alt-benzodithiophene copolymer (PTB7), which has been shown to yield very high power conversion efficiency when blended with [6,6]-phenyl-C71-butyric acid methyl ester (PC(71)BM). A surprisingly low degree of order was found in the polymer-far lower in the bulk heterojunction than in pure PTB7. X-ray diffraction data yielded a nearly full orientation distribution for the polymer π-stacking direction within well-ordered regions, revealing a moderate preference for π-stacking in the vertical direction ("face-on"). By combining molecular orientation information from polarizing absorption spectroscopies with the orientation distribution of ordered material from diffraction, we propose a model describing the PTB7 molecular orientation distribution (ordered and disordered), with the fraction of ordered polymer as a model parameter. This model shows that only a small fraction (≈20%) of the polymer in the PTB7/PC(71)BM blend is ordered. Energy-filtered transmission electron microscopy shows that the morphology of PTB7/PC(71)BM is composed of nanoscale fullerene-rich aggregates separated by polymer-rich regions. The addition of diiodooctane (DIO) to the casting solvent, as a processing additive, results in smaller domains and a more finely interpenetrating BHJ morphology, relative to blend films cast without DIO.

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Direct synthesis of hydrogen peroxide from H₂and O₂using supported Au–Pd catalysts

et al. 2008

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The direct synthesis of H2O2 at low temperature (2 degrees C) from H2 and O2 using carbon-supported Au, Pd and Au-Pd catalysts is described and contrasted with data for TiO2, Al2O3 and Fe2O3 as supports. The Au-Pd catalysts all perform significantly better than the pure Pd/TiO2 and Au/ TiO2 materials. The Au Pd/carbon catalysts gave the highest rate of H2O2 production, and the order of reactivity observed is: carbon > TiO2 > Al2O3. Catalysts were prepared by co-impregnation of the supports using incipient wetness with aqueous solutions of PdCl2 and HAuCl4, and following calcination at 400 degrees C the catalysts were stable and could be reused several time without loss of metal. The method of preparation is critical, however, to achieve stable catalysts. No promoters are required (e.g. halides) to achieve the high rates of hydrogen peroxide synthesis. The surface and bulk composition of the gold palladium nanoparticles was investigated by STEM-XEDS spectrum imaging. For TiO2 and Al2O3 as supports the Au Pd particles were found to exhibit a core-shell structure, Pd being concentrated on the surface. In contrast, the Au-Pd/carbon catalyst exhibited Au Pd nanoparticles which were homogeneous alloys and X-ray photoelectron studies were consistent with these observations. The origin of the enhanced activity for the carbon supported catalysts is a result of higher H2 selectivity for the formation of hydrogen peroxide which is due to the surface composition and size distribution of the nanoparticles. The key problem remaining is the sequential hydrogenation of hydrogen peroxide which limits the utilisation of the direct synthesis methodology and this is discussed in detail.

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Role of gold cations in the oxidation of carbon monoxide catalyzed by iron oxide-supported gold

Hutchings

Hall

Carley

et al. 2006

Journal of Catalysis

320

220

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Andrew A. Herzing

Solvent-Free Oxidation of Primary Alcohols to Aldehydes Using Au-Pd/TiO ₂ Catalysts

Identification of Active Gold Nanoclusters on Iron Oxide Supports for CO Oxidation

Switching Off Hydrogen Peroxide Hydrogenation in the Direct Synthesis Process

Electron Vortex Beams with High Quanta of Orbital Angular Momentum

Direct synthesis of hydrogen peroxide from H2 and O2 using TiO2-supported Au–Pd catalysts

Molecular Order in High-Efficiency Polymer/Fullerene Bulk Heterojunction Solar Cells

Direct synthesis of hydrogen peroxide from H₂and O₂using supported Au–Pd catalysts

Role of gold cations in the oxidation of carbon monoxide catalyzed by iron oxide-supported gold

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Andrew A. Herzing

Solvent-Free Oxidation of Primary Alcohols to Aldehydes Using Au-Pd/TiO 2 Catalysts

Identification of Active Gold Nanoclusters on Iron Oxide Supports for CO Oxidation

Switching Off Hydrogen Peroxide Hydrogenation in the Direct Synthesis Process

Electron Vortex Beams with High Quanta of Orbital Angular Momentum

Direct synthesis of hydrogen peroxide from H2 and O2 using TiO2-supported Au–Pd catalysts

Molecular Order in High-Efficiency Polymer/Fullerene Bulk Heterojunction Solar Cells

Direct synthesis of hydrogen peroxide from H2and O2using supported Au–Pd catalysts

Role of gold cations in the oxidation of carbon monoxide catalyzed by iron oxide-supported gold

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Product

Resources

About

Solvent-Free Oxidation of Primary Alcohols to Aldehydes Using Au-Pd/TiO ₂ Catalysts

Direct synthesis of hydrogen peroxide from H₂and O₂using supported Au–Pd catalysts