David Silber scite author profile

The adsorption of CO on the rutile TiO(2)(110) surface was investigated using He atom scattering (HAS), high resolution electron energy loss spectroscopy (HREELS), thermal desorption spectroscopy (TDS), and different types of ab initio electronic structure calculations. The experimental and theoretical results allow to put forward a consistent picture for this rather complicated adsorbate system. At 70 K a (2x1) adlayer with a glide symmetry plane is formed, containing two molecules per unit cell which are tilted in alternate directions by about 20 degrees relative to the surface normal. For this high density phase, the theoretical calculations reveal a substantial repulsion between CO molecules on neighboring lattice sites, in accord with the results of a detailed analysis of the experimental TDS data. The CO binding energy depends strongly on coverage and varies between 0.20 eV for the saturated monolayer and 0.36 eV for isolated molecules. The CO-CO repulsion leads to the desorption of about half of the CO molecules above 70 K and the formation of low density phases. HAS gave no indication of ordered adlayers at these lower coverages. For the internal stretching vibration of the CO molecules a value of 273 meV was determined by HREELS, in very good agreement with the theoretical calculations.

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Combined Theoretical and Experimental Study on the Adsorption of Methanol on the ZnO(101̅0) Surface

Kiss

Langenberg

Silber

et al. 2011

J. Phys. Chem. A

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The structure, dynamics, and energetics of methanol adlayers on the nonpolar ZnO(1010) surface have been studied by He-atom diffraction (HAS), high-resolution electron energy loss spectroscopy (HREELS), thermal desorption spectroscopy (TDS), and density functional calculations. The experimental and theoretical data consistently show that at temperatures below 357 K methanol forms an ordered adlayer with a (2 × 1) periodicity and a coverage of one monolayer in which half of the methanol molecules are dissociated. The ordering of the methanol molecules is governed by repulsive interactions between the methyl groups of the methanol molecules. This repulsive interaction is also responsible for the formation of a second, low-density phase at higher temperatures with half monolayer coverage of undissociated methanol which is stable up to 440 K.

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Adsorbate-induced lifting of substrate relaxation is a general mechanism governing titania surface chemistry

et al. 2016

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Under ambient conditions, almost all metals are coated by an oxide. These coatings, the result of a chemical reaction, are not passive. Many of them bind, activate and modify adsorbed molecules, processes that are exploited, for example, in heterogeneous catalysis and photochemistry. Here we report an effect of general importance that governs the bonding, structure formation and dissociation of molecules on oxidic substrates. For a specific example, methanol adsorbed on the rutile TiO2(110) single crystal surface, we demonstrate by using a combination of experimental and theoretical techniques that strongly bonding adsorbates can lift surface relaxations beyond their adsorption site, which leads to a significant substrate-mediated interaction between adsorbates. The result is a complex superstructure consisting of pairs of methanol molecules and unoccupied adsorption sites. Infrared spectroscopy reveals that the paired methanol molecules remain intact and do not deprotonate on the defect-free terraces of the rutile TiO2(110) surface.

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Water adsorption on r‐TiO₂(110): Presence of a well‐defined (1 × 1)‐structure as evidenced by He‐atom scattering

Osterloh¹,

Silber²,

Traeger³

et al. 2013

Physica Status Solidi (b)

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The adsorption of water on r‐TiO2(110) has been investigated with thermal desorption spectroscopy (TDS) and helium atom scattering. Conventional TDS using a mass spectrometer and He‐TDS monitoring reflected He beam intensity consistently show the existence of a structurally well‐defined monolayer as well as a highly ordered second layer of water and a disordered multilayer phase. He diffraction patterns recorded along the high symmetry [001], $[1{\bar {1}}0]$, and $[1{\bar {1}}1]$ directions reveal a well‐ordered superstructure with (1 × 1) symmetry, providing strong evidence for the absence of a partially dissociated monolayer on the perfect parts of the substrate. No changes in the diffraction patterns are observed after irradiation with UV‐light.

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David Silber

Formation of weakly bound, ordered adlayers of CO on rutile TiO2(110): A combined experimental and theoretical study

Combined Theoretical and Experimental Study on the Adsorption of Methanol on the ZnO(101̅0) Surface

Adsorbate-induced lifting of substrate relaxation is a general mechanism governing titania surface chemistry

Water adsorption on r‐TiO₂(110): Presence of a well‐defined (1 × 1)‐structure as evidenced by He‐atom scattering

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David Silber

Formation of weakly bound, ordered adlayers of CO on rutile TiO2(110): A combined experimental and theoretical study

Combined Theoretical and Experimental Study on the Adsorption of Methanol on the ZnO(101̅0) Surface

Adsorbate-induced lifting of substrate relaxation is a general mechanism governing titania surface chemistry

Water adsorption on r‐TiO2(110): Presence of a well‐defined (1 × 1)‐structure as evidenced by He‐atom scattering

Contact Info

Product

Resources

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Water adsorption on r‐TiO₂(110): Presence of a well‐defined (1 × 1)‐structure as evidenced by He‐atom scattering