Matthew J. Webb scite author profile

High-resolution scanning tunneling microscopy (STM) images at 5 K, simultaneously resolving the molecular adsorbate and the honeycomb structure of the well-defined Ag[111]-p(4 x 4)+Ag(1.83)O substrate, assign the adsorption site for ethene on the silver oxide surface. Ethene molecules are exclusively adsorbed above a particular subset of Ag(delta)(+) sites in the hexagonal rings of the oxide. Extensive density functional theory (DFT) slab calculations confirm that this is the most stable site, with an adsorption energy of 0.4 eV (39 kJ mol(-1)). Adsorption is accompanied by a large deformation of the hexagonal oxide ring and a significant increase in the C-C bond length. STM image simulations provide qualitative agreement with the experimental images, and the molecular orientation is discussed with the help of simple molecular orbital arguments.

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A simple method to produce almost perfect graphene on highly oriented pyrolytic graphite

Webb

Palmgren

Pal

et al. 2011

Carbon

105

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A simple and effective stepwise-method has been developed to remove defects from the top graphene layers of highly orientated pyrolytic graphite. Using a combination of ozone exposure and moderately high temperature we have shown that a defect-rich graphite surface can be modified to generate a graphene-like surface containing a negligible amount of oxygen, hydrogen and sp 3 carbon. We report definitive x-ray photoelectron and x-ray absorption spectroscopy analysis after each stage of the process, suggest a mechanism by which the modification occurs and propose it as a route towards the preparation or manipulation of pristine graphene samples.

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A versatile photoelectron spectrometer for pressures up to 30 mbar

Eriksson

Hahlin

Kahk

et al. 2014

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High-pressure photoelectron spectroscopy is a rapidly developing technique with applications in a wide range of fields ranging from fundamental surface science and catalysis to energy materials, environmental science, and biology. At present the majority of the high-pressure photoelectron spectrometers are situated at synchrotron end stations, but recently a small number of laboratory-based setups have also emerged. In this paper we discuss the design and performance of a new laboratory based high pressure photoelectron spectrometer equipped with an Al Kα X-ray anode and a hemispherical electron energy analyzer combined with a differentially pumped electrostatic lens. The instrument is demonstrated to be capable of measuring core level spectra at pressures up to 30 mbar. Moreover, valence band spectra of a silver sample as well as a carbon-coated surface (graphene) recorded under a 2 mbar nitrogen atmosphere are presented, demonstrating the versatility of this laboratory-based spectrometer. © 2014 AIP Publishing LLC.[http://dx

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Acetaldehyde Chemistry on Ag{111}-(4 × 4)-Ag_1.83O between 77 and 200 K Studied by STM

2004

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The interaction of acetaldehyde with the Ag{111}-(4 × 4)-Ag1.83O surface oxide structure at temperatures between 77 and 200 K has been studied with scanning tunneling microscopy at 5 K. The bonding sites, relative to the oxide structure, of acetaldehyde at 77 K, and of acetate and ethane-1,1-dioxy formed after annealing to 170 K are discussed. Helical polyacetaldehyde chains formed at 140 K, previously proposed on the basis of RAIRS data, have been observed directly, coexisting with the oxide surface.

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Matthew J. Webb

Specific Ethene Surface Activation on Silver Oxide Covered Ag{111} from the Interplay of STM Experiment and Theory

A simple method to produce almost perfect graphene on highly oriented pyrolytic graphite

A versatile photoelectron spectrometer for pressures up to 30 mbar

Acetaldehyde Chemistry on Ag{111}-(4 × 4)-Ag_1.83O between 77 and 200 K Studied by STM

Contact Info

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About

Matthew J. Webb

Specific Ethene Surface Activation on Silver Oxide Covered Ag{111} from the Interplay of STM Experiment and Theory

A simple method to produce almost perfect graphene on highly oriented pyrolytic graphite

A versatile photoelectron spectrometer for pressures up to 30 mbar

Acetaldehyde Chemistry on Ag{111}-(4 × 4)-Ag1.83O between 77 and 200 K Studied by STM

Contact Info

Product

Resources

About

Acetaldehyde Chemistry on Ag{111}-(4 × 4)-Ag_1.83O between 77 and 200 K Studied by STM