Angle resolved ion scattering spectroscopy reveals the local topography around atoms in a liquid surface

Andersson, Gunther G.; Krebs, Thomas; Morgner, Harald

doi:10.1039/b505965h

Cited by 36 publications

(43 citation statements)

References 28 publications

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“…23–25, and references therein). These studies show that the surface concentration of solvated ions at aqueous surfaces depends on their polarizabilities and is higher for large and more polarizable ions 24. 25 This finding could explain qualitatively why the large [Pt(NH 3 ) 4 ] 2+ ion is enriched at the surface, while the less polarizable Cl − ion is depleted.…”

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confidence: 86%

Surface Enrichment and Depletion Effects of Ions Dissolved in an Ionic Liquid: An X‐ray Photoelectron Spectroscopy Study

et al. 2006

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Oberflächen ionischer Flüssigkeiten: Laut winkelabhängiger Röntgenphotoelektronenspektroskopie (XPS) weicht die Zusammensetzung einer Lösung von [Pt(NH3)4]Cl2 in der ionischen Flüssigkeit 1‐Ethyl‐3‐methylimidazolium(EMIM)ethylsulfat an der Oberfläche deutlich von der im Volumen ab. [Pt(NH3)4]2+ wird an der Oberfläche auf Kosten des EMIM‐Kations angereichert, während die Cl−‐Konzentration bis auf Werte unterhalb der XPS‐Detektionsgrenze abnimmt.

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confidence: 86%

Surface Enrichment and Depletion Effects of Ions Dissolved in an Ionic Liquid: An X‐ray Photoelectron Spectroscopy Study

et al. 2006

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“…a assume that the surface is laterally homogeneous. It is worth mentioning that the angle resolved mode of NICISS is able to probe the lateral inhomogeneity of a liquid surface . In Fig.…”

Section: Concentration Depth Profilesmentioning

confidence: 99%

Thermodynamics and structure of liquid surfaces investigated directly with surface analytical tools**

Andersson

Morgner²

2017

Annalen der Physik

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Measuring directly the composition, the distribution of constituents as function of the depth and the orientation of molecules at liquid surfaces is essential for determining physicochemical properties of liquid surfaces. While the experimental tools that have been developed for analyzing solid surfaces can in principal be applied to liquid surfaces, it turned out that they had to be adjusted to the particular challenges imposed by liquid samples, e.g. by the unavoidable vapor pressure and by the mobility of the constituting atoms/molecules. In the present work it is shown, how electron spectroscopy and ion scattering spectroscopy have been used for analyzing liquid surfaces. The emphasis of this review is on using the structural information gained for determining the physicochemical properties of liquid surfaces.

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“…This question has been addressed both by experiments and molecular simulations [69][70][71][72][73]. Ion or molecule scattering experiments, performed in high vacuum [70,72,74], take advantage of the low vapor pressure of some of the non-aqueous liquids (formamide, glycerol, etc.) avoiding thus the need to use special techniques, as in the case of more volatile water [4,21].…”

Section: Water Versus Polar Non-aqueous Liquid Surfacementioning

confidence: 99%

Ions at Aqueous Interfaces: From Water Surface to Hydrated Proteins

Jungwirth

Winter

2008

Annu. Rev. Phys. Chem.

258

287

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The surfaces of aqueous solutions are traditionally viewed as devoid of inorganic ions. Molecular simulations and surface-selective spectroscopic techniques show, however, that large polarizable anions and hydronium cations can be found (and even enhanced) at the surface and are involved in chemistry at the air/water interface. Here, we review recent studies of ions at the air/water interface and compare from this perspective water with other polar solvents. For water, we focus in particular on the surface behavior of its ionic product (i.e., hydronium and hydroxide ions). We also investigate the feasibility of dielectric models for the description of the protein/water interface, in analogy to the air/water interface. Little correlation is found between these two interfaces in terms of ion segregation. Therefore, we suggest a local model of pairing of ions from the solution with charged and polar groups at the protein surface. We also describe corresponding results of experimental studies on aqueous model systems.

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Angle resolved ion scattering spectroscopy reveals the local topography around atoms in a liquid surface

Cited by 36 publications

References 28 publications

Surface Enrichment and Depletion Effects of Ions Dissolved in an Ionic Liquid: An X‐ray Photoelectron Spectroscopy Study

Surface Enrichment and Depletion Effects of Ions Dissolved in an Ionic Liquid: An X‐ray Photoelectron Spectroscopy Study

Thermodynamics and structure of liquid surfaces investigated directly with surface analytical tools**

Ions at Aqueous Interfaces: From Water Surface to Hydrated Proteins

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